Signed-off-by: arraykeys@gmail.com <arraykeys@gmail.com>

Signed-off-by: arraykeys@gmail.com <arraykeys@gmail.com>

CHANGELOG

@@ -1,4 +1,15 @@
 proxy更新日志
+v3.4
+1.socks5代理新增了用户名密码验证支持.
+2.socks5,http(s)代理增加了kcp传输协议支持.
+3.优化了内网穿透的心跳机制.
+
+v3.3
+1.修复了socks代理模式对证书文件的判断逻辑.
+2.增强了http代理,socks代理的ssh中转模式的稳定性.
+3.socks代理tls,tcp模式新增了CMD_ASSOCIATE(udp)支持.socks代理ssh模式不支持udp.
+4.修复了http代理某些情况下会崩溃的bug.
+
 v3.2
 1.内网穿透功能server端-r参数增加了协议和key设置.
 2.手册增加了对-r参数的详细说明.

README.md

@@ -1,5 +1,5 @@
 <img src="https://github.com/snail007/goproxy/blob/master/docs/images/logo.jpg?raw=true" width="200"/>  
-Proxy是golang实现的高性能http,https,websocket,tcp,udp代理服务器,支持正向代理和内网穿透.  
+Proxy是golang实现的高性能http,https,websocket,tcp,udp,socks5代理服务器,支持正向代理、内网穿透、SSH中转。  
   
 ---  
   
@@ -8,7 +8,7 @@ Proxy是golang实现的高性能http,https,websocket,tcp,udp代理服务器,支
 ### Features  
 - 链式代理,程序本身可以作为一级代理,如果设置了上级代理那么可以作为二级代理,乃至N级代理.  
 - 通讯加密,如果程序不是一级代理,而且上级代理也是本程序,那么可以加密和上级代理之间的通讯,采用底层tls高强度加密,安全无特征.  
-- 智能HTTP代理,会自动判断访问的网站是否屏蔽,如果被屏蔽那么就会使用上级代理(前提是配置了上级代理)访问网站;如果访问的网站没有被屏蔽,为了加速访问,代理会直接访问网站,不使用上级代理.  
+- 智能HTTP,SOCKS5代理,会自动判断访问的网站是否屏蔽,如果被屏蔽那么就会使用上级代理(前提是配置了上级代理)访问网站;如果访问的网站没有被屏蔽,为了加速访问,代理会直接访问网站,不使用上级代理.  
 - 域名黑白名单，更加自由的控制网站的访问方式。  
 - 跨平台性,无论你是widows,linux,还是mac,甚至是树莓派,都可以很好的运行proxy.  
 - 多协议支持,支持HTTP(S),TCP,UDP,Websocket,SOCKS5代理.  
@@ -24,22 +24,84 @@ Proxy是golang实现的高性能http,https,websocket,tcp,udp代理服务器,支
 - 替代圣剑内网通，显IP内网通，花生壳之类的工具.
 - ...  
 
-### 手册目录  
-本页是最新v3.2手册,其他版本手册请点击下面链接查看.  
+ 
+本页是v3.4手册,其他版本手册请点击下面链接查看.  
+- [v3.3手册](https://github.com/snail007/goproxy/tree/v3.3)
+- [v3.2手册](https://github.com/snail007/goproxy/tree/v3.2)
 - [v3.1手册](https://github.com/snail007/goproxy/tree/v3.1)
 - [v3.0手册](https://github.com/snail007/goproxy/tree/v3.0)
 - [v2.x手册](https://github.com/snail007/goproxy/tree/v2.2)  
 
+### 安装 
+1. [快速安装](#自动安装)
+1. [手动安装](#手动安装)
+
+### 首次使用必看
+- [环境](#使用教程)
+- [使用配置文件](#使用配置文件)
+- [生成通讯证书文件](#生成加密通讯需要的证书文件)
+
+### 手册目录
+- [1. HTTP代理](#1http代理)
+    - [1.1 普通HTTP代理](#11普通http代理)
+    - [1.2 普通二级HTTP代理](#12普通二级http代理)
+    - [1.3 HTTP二级代理(加密)](#13http二级代理加密)
+    - [1.4 HTTP三级代理(加密)](#14http三级代理加密)
+    - [1.5 Basic认证](#15basic认证)
+    - [1.6 强制走上级HTTP代理](#16http代理流量强制走上级http代理)
+    - [1.7 通过SSH中转](#17https通过ssh中转)
+        - [1.7.1 用户名和密码的方式](#171-ssh用户名和密码的方式)
+        - [1.7.2 用户名和密钥的方式](#172-ssh用户名和密钥的方式)
+    - [1.8 KCP协议传输](#18KCP协议传输)
+    - [1.9 查看帮助](#19查看帮助)
+- [2. TCP代理](#2tcp代理)
+    - [2.1 普通一级TCP代理](#21普通一级tcp代理)
+    - [2.2 普通二级TCP代理](#22普通二级tcp代理)
+    - [2.3 普通三级TCP代理](#23普通三级tcp代理)
+    - [2.4 加密二级TCP代理](#24加密二级tcp代理)
+    - [2.5 加密三级TCP代理](#25加密三级tcp代理)
+    - [2.6 查看帮助](#26查看帮助)
+- [3. UDP代理](#3udp代理)
+    - [3.1 普通一级TCP代理](#31普通一级udp代理)
+    - [3.2 普通二级TCP代理](#32普通二级udp代理)
+    - [3.3 普通三级TCP代理](#33普通三级udp代理)
+    - [3.4 加密二级TCP代理](#34加密二级udp代理)
+    - [3.5 加密三级TCP代理](#35加密三级udp代理)
+    - [3.6 查看帮助](#36查看帮助)
+- [4. 内网穿透](#4内网穿透)
+    - [4.1 原理说明](#41原理说明)
+    - [4.2 TCP普通用法](#42tcp普通用法)
+    - [4.3 微信接口本地开发](#43微信接口本地开发)
+    - [4.4 UDP普通用法](#44udp普通用法)
+    - [4.5 高级用法一](#45高级用法一)
+    - [4.6 高级用法一](#46高级用法二)
+    - [4.7 tserver的-r参数](#47tserver的-r参数)
+    - [4.8 查看帮助](#48查看帮助)
+- [5. SOCKS5代理](#5socks5代理)
+    - [5.1 普通SOCKS5代理](#51普通socks5代理)
+    - [5.2 普通二级SOCKS5代理](#52普通二级socks5代理)
+    - [5.3 SOCKS二级代理(加密)](#53socks二级代理加密)
+    - [5.4 SOCKS三级代理(加密)](#54socks三级代理加密)
+    - [5.5 流量强制走上级SOCKS代理](#55socks代理流量强制走上级socks代理)
+    - [5.6 通过SSH中转](#56socks通过ssh中转)
+        - [5.6.1 用户名和密码的方式](#561-ssh用户名和密码的方式)
+        - [5.6.2 用户名和密钥的方式](#562-ssh用户名和密钥的方式)
+    - [5.7 认证](#57认证)
+    - [5.8 KCP协议传输](#58KCP协议传输)
+    - [5.9 查看帮助](#59查看帮助)
+
 ### Fast Start  
 提示:所有操作需要root权限.  
-**0.如果你的VPS是linux64位的系统,那么只需要执行下面一句,就可以完成自动安装和配置.**  
+#### 自动安装
+#### **0.如果你的VPS是linux64位的系统,那么只需要执行下面一句,就可以完成自动安装和配置.**  
 ```shell  
 curl -L https://raw.githubusercontent.com/snail007/goproxy/master/install_auto.sh | bash  
 ```  
 安装完成,配置目录是/etc/proxy,更详细的使用方法参考下面的进一步了解.  
 如果安装失败或者你的vps不是linux64位系统,请按照下面的半自动步骤安装:  
   
-**1.登录你的VPS,下载守护进程monexec,选择合适你的版本,vps一般选择"linux_amd64.tar.gz"的即可.**  
+#### 手动安装
+#### **1.登录你的VPS,下载守护进程monexec,选择合适你的版本,vps一般选择"linux_amd64.tar.gz"的即可.**  
 下载地址:https://github.com/reddec/monexec/releases  
 比如下载到/root/proxy/  
 执行:  
@@ -48,13 +110,13 @@ mkdir /root/proxy/
 cd /root/proxy/  
 wget https://github.com/reddec/monexec/releases/download/v0.1.1/monexec_0.1.1_linux_amd64.tar.gz  
 ```  
-**2.下载proxy**  
+#### **2.下载proxy**  
 下载地址:https://github.com/snail007/goproxy/releases  
 ```shell  
 cd /root/proxy/  
 wget https://github.com/snail007/goproxy/releases/download/v3.1fix/proxy-linux-amd64.tar.gz  
 ```  
-**3.下载自动安装脚本**  
+#### **3.下载自动安装脚本**  
 ```shell  
 cd /root/proxy/  
 wget https://raw.githubusercontent.com/snail007/goproxy/master/install.sh  
@@ -64,11 +126,11 @@ chmod +x install.sh
   
 ## 使用教程  
   
-**提示**  
+#### **提示**  
 接下来的教程,默认系统是linux,程序是proxy；所有操作需要root权限；  
 如果你的是windows,请使用windows版本的proxy.exe即可.  
   
-**使用配置文件**  
+### **使用配置文件**  
 接下来的教程都是通过命令行参数介绍使用方法,也可以通过读取配置文件获取参数.  
 具体格式是通过@符号指定配置文件,例如:./proxy @configfile.txt  
 configfile.txt里面的格式是,第一行是子命令名称,第二行开始一行一个:参数的长格式=参数值,前后不能有空格和双引号.  
@@ -87,10 +149,10 @@ http,tcp,udp代理过程会和上级通讯,为了安全我们采用加密通讯,
 默认会在当前程序目录下面生成证书文件proxy.crt和key文件proxy.key。  
   
 ### 1.HTTP代理  
-**1.1.普通HTTP代理**  
+#### **1.1.普通HTTP代理**  
 `./proxy http -t tcp -p "0.0.0.0:38080"`  
   
-**1.2.普通二级HTTP代理**  
+#### **1.2.普通二级HTTP代理**  
 使用本地端口8090,假设上级HTTP代理是`22.22.22.22:8080`  
 `./proxy http -t tcp -p "0.0.0.0:8090" -T tcp -P "22.22.22.22:8080" `  
 默认关闭了连接池,如果要加快访问速度,-L可以开启连接池,10就是连接池大小,0为关闭,  
@@ -99,7 +161,7 @@ http,tcp,udp代理过程会和上级通讯,为了安全我们采用加密通讯,
 我们还可以指定网站域名的黑白名单文件,一行一个域名,怕匹配规则是最右批评匹配,比如:baidu.com,匹配的是*.*.baidu.com,黑名单的域名域名直接走上级代理,白名单的域名不走上级代理.  
 `./proxy http -p "0.0.0.0:8090" -T tcp -P "22.22.22.22:8080"  -b blocked.txt -d direct.txt`  
   
-**1.3.HTTP二级代理(加密)**  
+#### **1.3.HTTP二级代理(加密)**  
 一级HTTP代理(VPS,IP:22.22.22.22)  
 `./proxy http -t tls -p ":38080" -C proxy.crt -K proxy.key`  
   
@@ -111,7 +173,7 @@ http,tcp,udp代理过程会和上级通讯,为了安全我们采用加密通讯,
 `./proxy.exe http -t tcp -p ":8080" -T tls -P "22.22.22.22:38080" -C proxy.crt -K proxy.key`  
 然后设置你的windos系统中，需要通过代理上网的程序的代理为http模式，地址为：127.0.0.1，端口为：8080,程序即可通过加密通道通过vps上网。  
   
-**1.4.HTTP三级代理(加密)**  
+#### **1.4.HTTP三级代理(加密)**  
 一级HTTP代理VPS_01,IP:22.22.22.22  
 `./proxy http -t tls -p ":38080" -C proxy.crt -K proxy.key`  
 二级HTTP代理VPS_02,IP:33.33.33.33  
@@ -120,7 +182,7 @@ http,tcp,udp代理过程会和上级通讯,为了安全我们采用加密通讯,
 `./proxy http -t tcp -p ":8080" -T tls -P "33.33.33.33:28080" -C proxy.crt -K proxy.key`  
 那么访问本地的8080端口就是访问一级HTTP代理上面的代理端口38080.  
   
-**1.5.Basic认证**  
+#### **1.5.Basic认证**  
 对于代理HTTP协议我们可以basic进行Basic认证,认证的用户名和密码可以在命令行指定  
 `./proxy http -t tcp -p ":33080" -a "user1:pass1" -a "user2:pass2"`  
 多个用户,重复-a参数即可.  
@@ -128,42 +190,51 @@ http,tcp,udp代理过程会和上级通讯,为了安全我们采用加密通讯,
 `./proxy http -t tcp -p ":33080" -F auth-file.txt`  
 如果没有-a或-F参数,就是关闭Basic认证.  
   
-**1.6.HTTP代理流量强制走上级HTTP代理**  
+#### **1.6.HTTP代理流量强制走上级HTTP代理**  
 默认情况下,proxy会智能判断一个网站域名是否无法访问,如果无法访问才走上级HTTP代理.通过--always可以使全部HTTP代理流量强制走上级HTTP代理.  
 `./proxy http --always -t tls -p ":28080" -T tls -P "22.22.22.22:38080" -C proxy.crt -K proxy.key`  
   
-**1.7.HTTP(S)通过SSH中转**  
+#### **1.7.HTTP(S)通过SSH中转**  
 说明:ssh中转的原理是利用了ssh的转发功能,就是你连接上ssh之后,可以通过ssh代理访问目标地址.  
 假设有:vps  
 - IP是2.2.2.2, ssh端口是22, ssh用户名是:user, ssh用户密码是:demo  
 - 用户user的ssh私钥名称是user.key    
 
-***1.7.1 ssh用户名和密码的方式***   
+##### ***1.7.1 ssh用户名和密码的方式***   
 本地HTTP(S)代理28080端口,执行:  
 `./proxy http -T ssh -P "2.2.2.2:22" -u user -A demo -t tcp -p ":28080"`  
-***1.7.2 ssh用户名和密钥的方式***   
+##### ***1.7.2 ssh用户名和密钥的方式***   
 本地HTTP(S)代理28080端口,执行:  
 `./proxy http -T ssh -P "2.2.2.2:22" -u user -S user.key -t tcp -p ":28080"`  
 
-**1.8.查看帮助**  
-`./proxy help http`  
+#### **1.8.KCP协议传输**  
+KCP协议需要-B参数设置一个密码用于加密解密数据  
 
+一级HTTP代理(VPS,IP:22.22.22.22)  
+`./proxy http -t kcp -p ":38080" -B mypassword  
+  
+二级HTTP代理(本地Linux)  
+`./proxy http -t tcp -p ":8080" -T kcp -P "22.22.22.22:38080" -B mypassword`  
+那么访问本地的8080端口就是访问VPS上面的代理端口38080,数据通过kcp协议传输.  
+
+#### **1.9.查看帮助**  
+`./proxy help http`  
   
 ### 2.TCP代理  
   
-**2.1.普通一级TCP代理**  
+#### **2.1.普通一级TCP代理**  
 本地执行:  
 `./proxy tcp -p ":33080" -T tcp -P "192.168.22.33:22" -L 0`  
 那么访问本地33080端口就是访问192.168.22.33的22端口.  
   
-**2.2.普通二级TCP代理**  
+#### **2.2.普通二级TCP代理**  
 VPS(IP:22.22.22.33)执行:  
 `./proxy tcp -p ":33080" -T tcp -P "127.0.0.1:8080" -L 0`  
 本地执行:  
 `./proxy tcp -p ":23080" -T tcp -P "22.22.22.33:33080"`  
 那么访问本地23080端口就是访问22.22.22.33的8080端口.  
   
-**2.3.普通三级TCP代理**  
+#### **2.3.普通三级TCP代理**  
 一级TCP代理VPS_01,IP:22.22.22.22  
 `./proxy tcp -p ":38080" -T tcp -P "66.66.66.66:8080" -L 0`  
 二级TCP代理VPS_02,IP:33.33.33.33  
@@ -172,14 +243,14 @@ VPS(IP:22.22.22.33)执行:
 `./proxy tcp -p ":8080" -T tcp -P "33.33.33.33:28080"`  
 那么访问本地8080端口就是通过加密TCP隧道访问66.66.66.66的8080端口.  
   
-**2.4.加密二级TCP代理**  
+#### **2.4.加密二级TCP代理**  
 VPS(IP:22.22.22.33)执行:  
 `./proxy tcp --tls -p ":33080" -T tcp -P "127.0.0.1:8080" -L 0 -C proxy.crt -K proxy.key`  
 本地执行:  
 `./proxy tcp -p ":23080" -T tls -P "22.22.22.33:33080" -C proxy.crt -K proxy.key`  
 那么访问本地23080端口就是通过加密TCP隧道访问22.22.22.33的8080端口.  
   
-**2.5.加密三级TCP代理**  
+#### **2.5.加密三级TCP代理**  
 一级TCP代理VPS_01,IP:22.22.22.22  
 `./proxy tcp --tls -p ":38080" -T tcp -P "66.66.66.66:8080" -C proxy.crt -K proxy.key`  
 二级TCP代理VPS_02,IP:33.33.33.33  
@@ -188,24 +259,24 @@ VPS(IP:22.22.22.33)执行:
 `./proxy tcp -p ":8080" -T tls -P "33.33.33.33:28080" -C proxy.crt -K proxy.key`  
 那么访问本地8080端口就是通过加密TCP隧道访问66.66.66.66的8080端口.  
   
-**2.6.查看帮助**  
+#### **2.6.查看帮助**  
 `./proxy help tcp`  
   
 ### 3.UDP代理  
   
-**3.1.普通一级UDP代理**  
+#### **3.1.普通一级UDP代理**  
 本地执行:  
 `./proxy udp -p ":5353" -T udp -P "8.8.8.8:53"`  
 那么访问本地UDP:5353端口就是访问8.8.8.8的UDP:53端口.  
   
-**3.2.普通二级UDP代理**  
+#### **3.2.普通二级UDP代理**  
 VPS(IP:22.22.22.33)执行:  
 `./proxy tcp -p ":33080" -T udp -P "8.8.8.8:53"`  
 本地执行:  
 `./proxy udp -p ":5353" -T tcp -P "22.22.22.33:33080"`  
 那么访问本地UDP:5353端口就是通过TCP隧道,通过VPS访问8.8.8.8的UDP:53端口.  
   
-**3.3.普通三级UDP代理**  
+#### **3.3.普通三级UDP代理**  
 一级TCP代理VPS_01,IP:22.22.22.22  
 `./proxy tcp -p ":38080" -T udp -P "8.8.8.8:53"`  
 二级TCP代理VPS_02,IP:33.33.33.33  
@@ -214,14 +285,14 @@ VPS(IP:22.22.22.33)执行:
 `./proxy udp -p ":5353" -T tcp -P "33.33.33.33:28080"`  
 那么访问本地5353端口就是通过TCP隧道,通过VPS访问8.8.8.8的53端口.  
   
-**3.4.加密二级UDP代理**  
+#### **3.4.加密二级UDP代理**  
 VPS(IP:22.22.22.33)执行:  
 `./proxy tcp --tls -p ":33080" -T udp -P "8.8.8.8:53" -C proxy.crt -K proxy.key`  
 本地执行:  
 `./proxy udp -p ":5353" -T tls -P "22.22.22.33:33080" -C proxy.crt -K proxy.key`  
 那么访问本地UDP:5353端口就是通过加密TCP隧道,通过VPS访问8.8.8.8的UDP:53端口.  
   
-**3.5.加密三级UDP代理**  
+#### **3.5.加密三级UDP代理**  
 一级TCP代理VPS_01,IP:22.22.22.22  
 `./proxy tcp --tls -p ":38080" -T udp -P "8.8.8.8:53" -C proxy.crt -K proxy.key`  
 二级TCP代理VPS_02,IP:33.33.33.33  
@@ -230,11 +301,11 @@ VPS(IP:22.22.22.33)执行:
 `./proxy udp -p ":5353" -T tls -P "33.33.33.33:28080" -C proxy.crt -K proxy.key`  
 那么访问本地5353端口就是通过加密TCP隧道,通过VPS_01访问8.8.8.8的53端口.  
   
-**3.6.查看帮助**  
+#### **3.6.查看帮助**  
 `./proxy help udp`  
   
 ### 4.内网穿透  
-**4.1、原理说明**  
+#### **4.1、原理说明**  
 内网穿透,由三部分组成:client端,server端,bridge端；client和server主动连接bridge端进行桥接.  
 当用户访问server端,流程是:  
 1. server主动和bridge端建立连接；  
@@ -243,11 +314,10 @@ VPS(IP:22.22.22.33)执行:
 1. 然后bridge端把client过来的连接与server端过来的连接绑定；  
 1. 整个通道建立完成；  
   
-**4.2、TCP普通用法**  
+#### **4.2、TCP普通用法**  
 背景:  
 - 公司机器A提供了web服务80端口  
 - 有VPS一个,公网IP:22.22.22.22  
-- 本用法典型案例就是微信接口本地开发    
 
 需求:  
 在家里能够通过访问VPS的28080端口访问到公司机器A的80端口  
@@ -262,7 +332,7 @@ VPS(IP:22.22.22.33)执行:
 
 1. 完成  
   
-**4.3、微信接口本地开发**  
+#### **4.3、微信接口本地开发**  
 背景:  
 - 自己的笔记本提供了nginx服务80端口  
 - 有VPS一个,公网IP:22.22.22.22  
@@ -284,7 +354,7 @@ VPS(IP:22.22.22.33)执行:
 
 1. 完成  
   
-**4.4、UDP普通用法**  
+#### **4.4、UDP普通用法**  
 背景:  
 - 公司机器A提供了DNS解析服务,UDP:53端口  
 - 有VPS一个,公网IP:22.22.22.22  
@@ -302,7 +372,7 @@ VPS(IP:22.22.22.33)执行:
 
 1. 完成  
   
-**4.5、高级用法一**  
+#### **4.5、高级用法一**  
 背景:  
 - 公司机器A提供了web服务80端口  
 - 有VPS一个,公网IP:22.22.22.22  
@@ -323,7 +393,7 @@ VPS(IP:22.22.22.33)执行:
   
 1. 完成  
   
-**4.6、高级用法二**  
+#### **4.6、高级用法二**  
 提示:  
 如果同时有多个client连接到同一个bridge,需要指定不同的key,可以通过--k参数设定,--k可以是任意唯一字符串,  
 只要在同一个bridge上唯一即可.  
@@ -348,7 +418,7 @@ server连接到bridge的时候,如果同时有多个client连接到同一个brid
 
 1. 完成  
   
-**4.7.tserver的-r参数**  
+#### **4.7.tserver的-r参数**  
   -r完整格式是:`PROTOCOL://LOCAL_IP:LOCAL_PORT@[CLIENT_KEY]CLIENT_LOCAL_HOST:CLIENT_LOCAL_PORT`  
   
   4.7.1.协议PROTOCOL:tcp或者udp.  
@@ -363,23 +433,23 @@ server连接到bridge的时候,如果同时有多个client连接到同一个brid
   
   4.7.3.LOCAL_IP为空默认是:`0.0.0.0`,CLIENT_LOCAL_HOST为空默认是:`127.0.0.1`; 
 
-**4.8.查看帮助**  
+#### **4.8.查看帮助**  
 `./proxy help tbridge`  
 `./proxy help tserver`  
 `./proxy help tserver`  
   
 ### 5.SOCKS5代理  
 提示:SOCKS5代理,只支持TCP协议,不支持UDP协议,不支持用户名密码认证.  
-**5.1.普通SOCKS5代理**  
+#### **5.1.普通SOCKS5代理**  
 `./proxy socks -t tcp -p "0.0.0.0:38080"`  
   
-**5.2.普通二级SOCKS5代理**  
+#### **5.2.普通二级SOCKS5代理**  
 使用本地端口8090,假设上级SOCKS5代理是`22.22.22.22:8080`  
 `./proxy socks -t tcp -p "0.0.0.0:8090" -T tcp -P "22.22.22.22:8080" `  
 我们还可以指定网站域名的黑白名单文件,一行一个域名,怕匹配规则是最右批评匹配,比如:baidu.com,匹配的是*.*.baidu.com,黑名单的域名域名直接走上级代理,白名单的域名不走上级代理.  
 `./proxy socks -p "0.0.0.0:8090" -T tcp -P "22.22.22.22:8080"  -b blocked.txt -d direct.txt`  
   
-**5.3.SOCKS二级代理(加密)**  
+#### **5.3.SOCKS二级代理(加密)**  
 一级SOCKS代理(VPS,IP:22.22.22.22)  
 `./proxy socks -t tls -p ":38080" -C proxy.crt -K proxy.key`  
   
@@ -391,7 +461,7 @@ server连接到bridge的时候,如果同时有多个client连接到同一个brid
 `./proxy.exe socks -t tcp -p ":8080" -T tls -P "22.22.22.22:38080" -C proxy.crt -K proxy.key`  
 然后设置你的windos系统中，需要通过代理上网的程序的代理为socks5模式，地址为：127.0.0.1，端口为：8080,程序即可通过加密通道通过vps上网。  
   
-**5.4.SOCKS三级代理(加密)**  
+#### **5.4.SOCKS三级代理(加密)**  
 一级SOCKS代理VPS_01,IP:22.22.22.22  
 `./proxy socks -t tls -p ":38080" -C proxy.crt -K proxy.key`  
 二级SOCKS代理VPS_02,IP:33.33.33.33  
@@ -400,30 +470,50 @@ server连接到bridge的时候,如果同时有多个client连接到同一个brid
 `./proxy socks -t tcp -p ":8080" -T tls -P "33.33.33.33:28080" -C proxy.crt -K proxy.key`  
 那么访问本地的8080端口就是访问一级SOCKS代理上面的代理端口38080.  
   
-**5.5.SOCKS代理流量强制走上级SOCKS代理**  
+#### **5.5.SOCKS代理流量强制走上级SOCKS代理**  
 默认情况下,proxy会智能判断一个网站域名是否无法访问,如果无法访问才走上级SOCKS代理.通过--always可以使全部SOCKS代理流量强制走上级SOCKS代理.  
 `./proxy socks --always -t tls -p ":28080" -T tls -P "22.22.22.22:38080" -C proxy.crt -K proxy.key`  
   
-**5.6.SOCKS通过SSH中转**  
+#### **5.6.SOCKS通过SSH中转**  
 说明:ssh中转的原理是利用了ssh的转发功能,就是你连接上ssh之后,可以通过ssh代理访问目标地址.  
 假设有:vps  
 - IP是2.2.2.2, ssh端口是22, ssh用户名是:user, ssh用户密码是:demo
 - 用户user的ssh私钥名称是user.key   
 
-***5.6.1 ssh用户名和密码的方式***  
+##### ***5.6.1 ssh用户名和密码的方式***  
 本地SOCKS5代理28080端口,执行:  
 `./proxy socks -T ssh -P "2.2.2.2:22" -u user -A demo -t tcp -p ":28080"`  
-***5.6.2 ssh用户名和密钥的方式***  
+##### ***5.6.2 ssh用户名和密钥的方式***  
 本地SOCKS5代理28080端口,执行:  
 `./proxy socks -T ssh -P "2.2.2.2:22" -u user -S user.key -t tcp -p ":28080"`  
 
 那么访问本地的28080端口就是通过VPS访问目标地址.  
 
-**5.7.查看帮助**  
+#### **5.7.认证**  
+对于socks5代理协议我们可以进行用户名密码认证,认证的用户名和密码可以在命令行指定  
+`./proxy socks -t tcp -p ":33080" -a "user1:pass1" -a "user2:pass2"`  
+多个用户,重复-a参数即可.  
+也可以放在文件中,格式是一行一个"用户名:密码",然后用-F指定.  
+`./proxy socks -t tcp -p ":33080" -F auth-file.txt`  
+如果没有-a或-F参数,就是关闭认证.  
+
+#### **5.8.KCP协议传输**  
+KCP协议需要-B参数设置一个密码用于加密解密数据  
+
+一级HTTP代理(VPS,IP:22.22.22.22)  
+`./proxy socks -t kcp -p ":38080" -B mypassword  
+  
+二级HTTP代理(本地Linux)  
+`./proxy socks -t tcp -p ":8080" -T kcp -P "22.22.22.22:38080" -B mypassword`  
+那么访问本地的8080端口就是访问VPS上面的代理端口38080,数据通过kcp协议传输.  
+
+#### **5.9.查看帮助**  
 `./proxy help socks`  
 
 ### TODO  
-- SOCKS5增加用户名密码认证
+- http,socks代理多个上级负载均衡?
+- 内网穿透server<->bridge心跳机制?
+- 欢迎加群反馈...
 
 ### 如何使用源码?   
 cd进入你的go src目录,然后git clone https://github.com/snail007/goproxy.git ./proxy 即可.   

config.go

@@ -35,14 +35,14 @@ func initConfig() (err error) {
 	//build srvice args
 	app = kingpin.New("proxy", "happy with proxy")
 	app.Author("snail").Version(APP_VERSION)
-
+	debug := app.Flag("debug", "debug log output").Default("false").Bool()
 	//########http#########
 	http := app.Command("http", "proxy on http mode")
 	httpArgs.Parent = http.Flag("parent", "parent address, such as: \"23.32.32.19:28008\"").Default("").Short('P').String()
 	httpArgs.CertFile = http.Flag("cert", "cert file for tls").Short('C').Default("proxy.crt").String()
 	httpArgs.KeyFile = http.Flag("key", "key file for tls").Short('K').Default("proxy.key").String()
-	httpArgs.LocalType = http.Flag("local-type", "local protocol type <tls|tcp>").Default("tcp").Short('t').Enum("tls", "tcp")
-	httpArgs.ParentType = http.Flag("parent-type", "parent protocol type <tls|tcp|ssh>").Short('T').Enum("tls", "tcp", "ssh")
+	httpArgs.LocalType = http.Flag("local-type", "local protocol type <tls|tcp|kcp>").Default("tcp").Short('t').Enum("tls", "tcp", "kcp")
+	httpArgs.ParentType = http.Flag("parent-type", "parent protocol type <tls|tcp|ssh|kcp>").Short('T').Enum("tls", "tcp", "ssh", "kcp")
 	httpArgs.Always = http.Flag("always", "always use parent proxy").Default("false").Bool()
 	httpArgs.Timeout = http.Flag("timeout", "tcp timeout milliseconds when connect to real server or parent proxy").Default("2000").Int()
 	httpArgs.HTTPTimeout = http.Flag("http-timeout", "check domain if blocked , http request timeout milliseconds when connect to host").Default("3000").Int()
@@ -58,6 +58,8 @@ func initConfig() (err error) {
 	httpArgs.SSHKeyFile = http.Flag("ssh-key", "private key file for ssh").Short('S').Default("").String()
 	httpArgs.SSHKeyFileSalt = http.Flag("ssh-keysalt", "salt of ssh private key").Short('s').Default("").String()
 	httpArgs.SSHPassword = http.Flag("ssh-password", "password for ssh").Short('A').Default("").String()
+	httpArgs.KCPKey = http.Flag("kcp-key", "key for kcp encrypt/decrypt data").Short('B').Default("encrypt").String()
+	httpArgs.KCPMethod = http.Flag("kcp-method", "kcp encrypt/decrypt method").Short('M').Default("3des").String()
 
 	//########tcp#########
 	tcp := app.Command("tcp", "proxy on tcp mode")
@@ -110,9 +112,11 @@ func initConfig() (err error) {
 	//########ssh#########
 	socks := app.Command("socks", "proxy on ssh mode")
 	socksArgs.Parent = socks.Flag("parent", "parent ssh address, such as: \"23.32.32.19:22\"").Default("").Short('P').String()
-	socksArgs.ParentType = socks.Flag("parent-type", "parent protocol type <tls|tcp|ssh>").Default("tcp").Short('T').Enum("tls", "tcp", "ssh")
-	socksArgs.LocalType = socks.Flag("local-type", "local protocol type <tls|tcp>").Default("tcp").Short('t').Enum("tls", "tcp")
+	socksArgs.ParentType = socks.Flag("parent-type", "parent protocol type <tls|tcp|kcp|ssh>").Default("tcp").Short('T').Enum("tls", "tcp", "kcp", "ssh")
+	socksArgs.LocalType = socks.Flag("local-type", "local protocol type <tls|tcp|kcp>").Default("tcp").Short('t').Enum("tls", "tcp", "kcp")
 	socksArgs.Local = socks.Flag("local", "local ip:port to listen").Short('p').Default(":33080").String()
+	socksArgs.UDPParent = socks.Flag("udp-parent", "udp parent address, such as: \"23.32.32.19:33090\"").Default("").Short('X').String()
+	socksArgs.UDPLocal = socks.Flag("udp-local", "udp local ip:port to listen").Short('x').Default(":33090").String()
 	socksArgs.CertFile = socks.Flag("cert", "cert file for tls").Short('C').Default("proxy.crt").String()
 	socksArgs.KeyFile = socks.Flag("key", "key file for tls").Short('K').Default("proxy.key").String()
 	socksArgs.SSHUser = socks.Flag("ssh-user", "user for ssh").Short('u').Default("").String()
@@ -124,9 +128,20 @@ func initConfig() (err error) {
 	socksArgs.Interval = socks.Flag("interval", "check domain if blocked every interval seconds").Default("10").Int()
 	socksArgs.Blocked = socks.Flag("blocked", "blocked domain file , one domain each line").Default("blocked").Short('b').String()
 	socksArgs.Direct = socks.Flag("direct", "direct domain file , one domain each line").Default("direct").Short('d').String()
+	socksArgs.AuthFile = socks.Flag("auth-file", "http basic auth file,\"username:password\" each line in file").Short('F').String()
+	socksArgs.Auth = socks.Flag("auth", "socks auth username and password, mutiple user repeat -a ,such as: -a user1:pass1 -a user2:pass2").Short('a').Strings()
+	socksArgs.KCPKey = socks.Flag("kcp-key", "key for kcp encrypt/decrypt data").Short('B').Default("encrypt").String()
+	socksArgs.KCPMethod = socks.Flag("kcp-method", "kcp encrypt/decrypt method").Short('M').Default("3des").String()
+
 	//parse args
 	serviceName := kingpin.MustParse(app.Parse(os.Args[1:]))
-
+	flags := log.Ldate
+	if *debug {
+		flags |= log.Lshortfile | log.Lmicroseconds
+	} else {
+		flags |= log.Ltime
+	}
+	log.SetFlags(flags)
 	poster()
 	//regist services and run service
 	services.Regist("http", services.NewHTTP(), httpArgs)

install_auto.sh

@@ -6,7 +6,7 @@ fi
 mkdir /tmp/proxy
 cd /tmp/proxy
 wget https://github.com/reddec/monexec/releases/download/v0.1.1/monexec_0.1.1_linux_amd64.tar.gz
-wget https://github.com/snail007/goproxy/releases/download/v3.1fix/proxy-linux-amd64.tar.gz
+wget https://github.com/snail007/goproxy/releases/download/v3.4/proxy-linux-amd64.tar.gz
 
 # install monexec
 tar zxvf monexec_0.1.1_linux_amd64.tar.gz

main.go

@@ -9,7 +9,7 @@ import (
 	"syscall"
 )
 
-const APP_VERSION = "3.2"
+const APP_VERSION = "3.4"
 
 func main() {
 	err := initConfig()

release.sh

@@ -1,5 +1,5 @@
 #!/bin/bash
-VER="3.2"
+VER="3.4"
 RELEASE="release-${VER}"
 rm -rf .cert
 mkdir .cert

services/args.go

@@ -10,9 +10,12 @@ const (
 	TYPE_UDP             = "udp"
 	TYPE_HTTP            = "http"
 	TYPE_TLS             = "tls"
-	CONN_CONTROL = uint8(1)
-	CONN_SERVER  = uint8(2)
-	CONN_CLIENT  = uint8(3)
+	TYPE_KCP             = "kcp"
+	CONN_CLIENT_CONTROL  = uint8(1)
+	CONN_CLIENT_HEARBEAT = uint8(2)
+	CONN_SERVER_HEARBEAT = uint8(3)
+	CONN_SERVER          = uint8(4)
+	CONN_CLIENT          = uint8(5)
 )
 
 type TunnelServerArgs struct {
@@ -27,6 +30,7 @@ type TunnelServerArgs struct {
 	Remote    *string
 	Timeout   *int
 	Route     *[]string
+	Mgr       *TunnelServerManager
 }
 type TunnelClientArgs struct {
 	Parent    *string
@@ -85,6 +89,8 @@ type HTTPArgs struct {
 	SSHUser             *string
 	SSHKeyBytes         []byte
 	SSHAuthMethod       ssh.AuthMethod
+	KCPMethod           *string
+	KCPKey              *string
 }
 type UDPArgs struct {
 	Parent              *string
@@ -118,6 +124,12 @@ type SocksArgs struct {
 	Interval       *int
 	Blocked        *string
 	Direct         *string
+	AuthFile       *string
+	Auth           *[]string
+	KCPMethod      *string
+	KCPKey         *string
+	UDPParent      *string
+	UDPLocal       *string
 }
 
 func (a *TCPArgs) Protocol() string {

services/http.go

@@ -20,6 +20,7 @@ type HTTP struct {
 	checker   utils.Checker
 	basicAuth utils.BasicAuth
 	sshClient *ssh.Client
+	lockChn   chan bool
 }
 
 func NewHTTP() Service {
@@ -28,6 +29,7 @@ func NewHTTP() Service {
 		cfg:       HTTPArgs{},
 		checker:   utils.Checker{},
 		basicAuth: utils.BasicAuth{},
+		lockChn:   make(chan bool, 1),
 	}
 }
 func (s *HTTP) CheckArgs() {
@@ -76,6 +78,28 @@ func (s *HTTP) InitService() {
 		if err != nil {
 			log.Fatalf("init service fail, ERR: %s", err)
 		}
+		go func() {
+			//循环检查ssh网络连通性
+			for {
+				conn, err := utils.ConnectHost(*s.cfg.Parent, *s.cfg.Timeout*2)
+				if err == nil {
+					_, err = conn.Write([]byte{0})
+				}
+				if err != nil {
+					if s.sshClient != nil {
+						s.sshClient.Close()
+						if s.sshClient.Conn != nil {
+							s.sshClient.Conn.Close()
+						}
+					}
+					log.Printf("ssh offline, retrying...")
+					s.ConnectSSH()
+				} else {
+					conn.Close()
+				}
+				time.Sleep(time.Second * 3)
+			}
+		}()
 	}
 }
 func (s *HTTP) StopService() {
@@ -96,8 +120,10 @@ func (s *HTTP) Start(args interface{}) (err error) {
 	sc := utils.NewServerChannel(host, p)
 	if *s.cfg.LocalType == TYPE_TCP {
 		err = sc.ListenTCP(s.callback)
-	} else {
+	} else if *s.cfg.LocalType == TYPE_TLS {
 		err = sc.ListenTls(s.cfg.CertBytes, s.cfg.KeyBytes, s.callback)
+	} else if *s.cfg.LocalType == TYPE_KCP {
+		err = sc.ListenKCP(*s.cfg.KCPMethod, *s.cfg.KCPKey, s.callback)
 	}
 	if err != nil {
 		return
@@ -115,7 +141,9 @@ func (s *HTTP) callback(inConn net.Conn) {
 			log.Printf("http(s) conn handler crashed with err : %s \nstack: %s", err, string(debug.Stack()))
 		}
 	}()
-	req, err := utils.NewHTTPRequest(&inConn, 4096, s.IsBasicAuth(), &s.basicAuth)
+	var err interface{}
+	var req utils.HTTPRequest
+	req, err = utils.NewHTTPRequest(&inConn, 4096, s.IsBasicAuth(), &s.basicAuth)
 	if err != nil {
 		if err != io.EOF {
 			log.Printf("decoder error , form %s, ERR:%s", err, inConn.RemoteAddr())
@@ -153,7 +181,7 @@ func (s *HTTP) callback(inConn net.Conn) {
 		utils.CloseConn(&inConn)
 	}
 }
-func (s *HTTP) OutToTCP(useProxy bool, address string, inConn *net.Conn, req *utils.HTTPRequest) (err error) {
+func (s *HTTP) OutToTCP(useProxy bool, address string, inConn *net.Conn, req *utils.HTTPRequest) (err interface{}) {
 	inAddr := (*inConn).RemoteAddr().String()
 	inLocalAddr := (*inConn).LocalAddr().String()
 	//防止死循环
@@ -164,10 +192,14 @@ func (s *HTTP) OutToTCP(useProxy bool, address string, inConn *net.Conn, req *ut
 	}
 	var outConn net.Conn
 	var _outConn interface{}
+	tryCount := 0
+	maxTryCount := 5
+	for {
 		if useProxy {
 			if *s.cfg.ParentType == "ssh" {
 				outConn, err = s.getSSHConn(address)
 			} else {
+				//log.Printf("%v", s.outPool)
 				_outConn, err = s.outPool.Pool.Get()
 				if err == nil {
 					outConn = _outConn.(net.Conn)
@@ -176,6 +208,14 @@ func (s *HTTP) OutToTCP(useProxy bool, address string, inConn *net.Conn, req *ut
 		} else {
 			outConn, err = utils.ConnectHost(address, *s.cfg.Timeout)
 		}
+		tryCount++
+		if err == nil || tryCount > maxTryCount {
+			break
+		} else {
+			log.Printf("connect to %s , err:%s,retrying...", *s.cfg.Parent, err)
+			time.Sleep(time.Second * 2)
+		}
+	}
 	if err != nil {
 		log.Printf("connect to %s , err:%s", *s.cfg.Parent, err)
 		utils.CloseConn(inConn)
@@ -202,24 +242,36 @@ func (s *HTTP) OutToTCP(useProxy bool, address string, inConn *net.Conn, req *ut
 		log.Printf("conn %s - %s - %s - %s released [%s]", inAddr, inLocalAddr, outLocalAddr, outAddr, req.Host)
 		utils.CloseConn(inConn)
 		utils.CloseConn(&outConn)
-	}, func(n int, d bool) {}, 0)
+	})
 	log.Printf("conn %s - %s - %s - %s connected [%s]", inAddr, inLocalAddr, outLocalAddr, outAddr, req.Host)
 
 	return
 }
 
-func (s *HTTP) getSSHConn(host string) (outConn net.Conn, err error) {
+func (s *HTTP) getSSHConn(host string) (outConn net.Conn, err interface{}) {
 	maxTryCount := 1
 	tryCount := 0
 RETRY:
 	if tryCount >= maxTryCount {
 		return
 	}
+	wait := make(chan bool, 1)
+	go func() {
+		defer func() {
+			if err == nil {
+				err = recover()
+			}
+			wait <- true
+		}()
 		outConn, err = s.sshClient.Dial("tcp", host)
-	//log.Printf("s.sshClient.Dial, host:%s)", host)
+	}()
+	select {
+	case <-wait:
+	case <-time.After(time.Second * 5):
+		err = fmt.Errorf("ssh dial %s timeout", host)
+	}
 	if err != nil {
 		log.Printf("connect ssh fail, ERR: %s, retrying...", err)
-		s.sshClient.Close()
 		e := s.ConnectSSH()
 		if e == nil {
 			tryCount++
@@ -232,23 +284,36 @@ RETRY:
 	return
 }
 func (s *HTTP) ConnectSSH() (err error) {
+	select {
+	case s.lockChn <- true:
+	default:
+		err = fmt.Errorf("can not connect at same time")
+		return
+	}
 	config := ssh.ClientConfig{
+		Timeout: time.Duration(*s.cfg.Timeout) * time.Millisecond,
 		User:    *s.cfg.SSHUser,
 		Auth:    []ssh.AuthMethod{s.cfg.SSHAuthMethod},
 		HostKeyCallback: func(hostname string, remote net.Addr, key ssh.PublicKey) error {
 			return nil
 		},
 	}
+	if s.sshClient != nil {
+		s.sshClient.Close()
+	}
 	s.sshClient, err = ssh.Dial("tcp", *s.cfg.Parent, &config)
+	<-s.lockChn
 	return
 }
 func (s *HTTP) InitOutConnPool() {
-	if *s.cfg.ParentType == TYPE_TLS || *s.cfg.ParentType == TYPE_TCP {
+	if *s.cfg.ParentType == TYPE_TLS || *s.cfg.ParentType == TYPE_TCP || *s.cfg.ParentType == TYPE_KCP {
 		//dur int, isTLS bool, certBytes, keyBytes []byte,
 		//parent string, timeout int, InitialCap int, MaxCap int
 		s.outPool = utils.NewOutPool(
 			*s.cfg.CheckParentInterval,
-			*s.cfg.ParentType == TYPE_TLS,
+			*s.cfg.ParentType,
+			*s.cfg.KCPMethod,
+			*s.cfg.KCPKey,
 			s.cfg.CertBytes, s.cfg.KeyBytes,
 			*s.cfg.Parent,
 			*s.cfg.Timeout,

services/socks.go

@@ -1,15 +1,15 @@
 package services
 
 import (
-	"bytes"
 	"crypto/tls"
-	"encoding/binary"
 	"fmt"
-	"io"
 	"io/ioutil"
 	"log"
 	"net"
 	"proxy/utils"
+	"proxy/utils/aes"
+	"proxy/utils/socks"
+	"runtime/debug"
 	"time"
 
 	"golang.org/x/crypto/ssh"
@@ -20,6 +20,8 @@ type Socks struct {
 	checker   utils.Checker
 	basicAuth utils.BasicAuth
 	sshClient *ssh.Client
+	lockChn   chan bool
+	udpSC     utils.ServerChannel
 }
 
 func NewSocks() Service {
@@ -27,16 +29,20 @@ func NewSocks() Service {
 		cfg:       SocksArgs{},
 		checker:   utils.Checker{},
 		basicAuth: utils.BasicAuth{},
+		lockChn:   make(chan bool, 1),
 	}
 }
 
 func (s *Socks) CheckArgs() {
 	var err error
+	if *s.cfg.LocalType == "tls" {
+		s.cfg.CertBytes, s.cfg.KeyBytes = utils.TlsBytes(*s.cfg.CertFile, *s.cfg.KeyFile)
+	}
 	if *s.cfg.Parent != "" {
 		if *s.cfg.ParentType == "" {
 			log.Fatalf("parent type unkown,use -T <tls|tcp|ssh>")
 		}
-		if *s.cfg.ParentType == "tls" || *s.cfg.LocalType == "tls" {
+		if *s.cfg.ParentType == "tls" {
 			s.cfg.CertBytes, s.cfg.KeyBytes = utils.TlsBytes(*s.cfg.CertFile, *s.cfg.KeyFile)
 		}
 		if *s.cfg.ParentType == "ssh" {
@@ -46,7 +52,6 @@ func (s *Socks) CheckArgs() {
 			if *s.cfg.SSHKeyFile == "" && *s.cfg.SSHPassword == "" {
 				log.Fatalf("ssh password or key required")
 			}
-
 			if *s.cfg.SSHPassword != "" {
 				s.cfg.SSHAuthMethod = ssh.Password(*s.cfg.SSHPassword)
 			} else {
@@ -70,18 +75,52 @@ func (s *Socks) CheckArgs() {
 
 }
 func (s *Socks) InitService() {
+	s.InitBasicAuth()
 	s.checker = utils.NewChecker(*s.cfg.Timeout, int64(*s.cfg.Interval), *s.cfg.Blocked, *s.cfg.Direct)
 	if *s.cfg.ParentType == "ssh" {
 		err := s.ConnectSSH()
 		if err != nil {
 			log.Fatalf("init service fail, ERR: %s", err)
 		}
+		go func() {
+			//循环检查ssh网络连通性
+			for {
+				conn, err := utils.ConnectHost(*s.cfg.Parent, *s.cfg.Timeout*2)
+				if err == nil {
+					_, err = conn.Write([]byte{0})
+				}
+				if err != nil {
+					if s.sshClient != nil {
+						s.sshClient.Close()
+					}
+					log.Printf("ssh offline, retrying...")
+					s.ConnectSSH()
+				} else {
+					conn.Close()
+				}
+				time.Sleep(time.Second * 3)
+			}
+		}()
+	}
+	if *s.cfg.ParentType == "ssh" {
+		log.Println("warn: socks udp not suppored for ssh")
+	} else {
+
+		s.udpSC = utils.NewServerChannelHost(*s.cfg.UDPLocal)
+		err := s.udpSC.ListenUDP(s.udpCallback)
+		if err != nil {
+			log.Fatalf("init udp service fail, ERR: %s", err)
+		}
+		log.Printf("udp socks proxy on %s", s.udpSC.UDPListener.LocalAddr())
 	}
 }
 func (s *Socks) StopService() {
 	if s.sshClient != nil {
 		s.sshClient.Close()
 	}
+	if s.udpSC.UDPListener != nil {
+		s.udpSC.UDPListener.Close()
+	}
 }
 func (s *Socks) Start(args interface{}) (err error) {
 	//start()
@@ -93,9 +132,11 @@ func (s *Socks) Start(args interface{}) (err error) {
 	}
 	sc := utils.NewServerChannelHost(*s.cfg.Local)
 	if *s.cfg.LocalType == TYPE_TCP {
-		err = sc.ListenTCP(s.callback)
-	} else {
-		err = sc.ListenTls(s.cfg.CertBytes, s.cfg.KeyBytes, s.callback)
+		err = sc.ListenTCP(s.socksConnCallback)
+	} else if *s.cfg.LocalType == TYPE_TLS {
+		err = sc.ListenTls(s.cfg.CertBytes, s.cfg.KeyBytes, s.socksConnCallback)
+	} else if *s.cfg.LocalType == TYPE_KCP {
+		err = sc.ListenKCP(*s.cfg.KCPMethod, *s.cfg.KCPKey, s.socksConnCallback)
 	}
 	if err != nil {
 		return
@@ -106,123 +147,303 @@ func (s *Socks) Start(args interface{}) (err error) {
 func (s *Socks) Clean() {
 	s.StopService()
 }
-func (s *Socks) callback(inConn net.Conn) {
+func (s *Socks) UDPKey() []byte {
+	return s.cfg.KeyBytes[:32]
+}
+func (s *Socks) udpCallback(b []byte, localAddr, srcAddr *net.UDPAddr) {
+	rawB := b
+	var err error
+	if *s.cfg.LocalType == "tls" {
+		//decode b
+		rawB, err = goaes.Decrypt(s.UDPKey(), b)
+		if err != nil {
+			log.Printf("decrypt udp packet fail from %s", srcAddr.String())
+			return
+		}
+	}
+	p, err := socks.ParseUDPPacket(rawB)
+	log.Printf("udp revecived:%v", len(p.Data()))
+	if err != nil {
+		log.Printf("parse udp packet fail, ERR:%s", err)
+		return
+	}
+	//log.Printf("##########udp to -> %s:%s###########", p.Host(), p.Port())
+	if *s.cfg.Parent != "" {
+		//有上级代理,转发给上级
+		if *s.cfg.ParentType == "tls" {
+			//encode b
+			rawB, err = goaes.Encrypt(s.UDPKey(), rawB)
+			if err != nil {
+				log.Printf("encrypt udp data fail to %s", *s.cfg.Parent)
+				return
+			}
+		}
+		parent := *s.cfg.UDPParent
+		if parent == "" {
+			parent = *s.cfg.Parent
+		}
+		dstAddr, err := net.ResolveUDPAddr("udp", parent)
+		if err != nil {
+			log.Printf("can't resolve address: %s", err)
+			return
+		}
+		clientSrcAddr := &net.UDPAddr{IP: net.IPv4zero, Port: 0}
+		conn, err := net.DialUDP("udp", clientSrcAddr, dstAddr)
+		if err != nil {
+			log.Printf("connect to udp %s fail,ERR:%s", dstAddr.String(), err)
+			return
+		}
+		conn.SetDeadline(time.Now().Add(time.Millisecond * time.Duration(*s.cfg.Timeout*5)))
+		_, err = conn.Write(rawB)
+		log.Printf("udp request:%v", len(rawB))
+		if err != nil {
+			log.Printf("send udp packet to %s fail,ERR:%s", dstAddr.String(), err)
+			conn.Close()
+			return
+		}
+
+		//log.Printf("send udp packet to %s success", dstAddr.String())
+		buf := make([]byte, 10*1024)
+		length, _, err := conn.ReadFromUDP(buf)
+		if err != nil {
+			log.Printf("read udp response from %s fail ,ERR:%s", dstAddr.String(), err)
+			conn.Close()
+			return
+		}
+		respBody := buf[0:length]
+		log.Printf("udp response:%v", len(respBody))
+		//log.Printf("revecived udp packet from %s", dstAddr.String())
+		if *s.cfg.ParentType == "tls" {
+			//decode b
+			respBody, err = goaes.Decrypt(s.UDPKey(), respBody)
+			if err != nil {
+				log.Printf("encrypt udp data fail to %s", *s.cfg.Parent)
+				conn.Close()
+				return
+			}
+		}
+		if *s.cfg.LocalType == "tls" {
+			d, err := goaes.Encrypt(s.UDPKey(), respBody)
+			if err != nil {
+				log.Printf("encrypt udp data fail from %s", dstAddr.String())
+				conn.Close()
+				return
+			}
+			s.udpSC.UDPListener.WriteToUDP(d, srcAddr)
+			log.Printf("udp reply:%v", len(d))
+		} else {
+			s.udpSC.UDPListener.WriteToUDP(respBody, srcAddr)
+			log.Printf("udp reply:%v", len(respBody))
+		}
+
+	} else {
+		//本地代理
+		dstAddr, err := net.ResolveUDPAddr("udp", net.JoinHostPort(p.Host(), p.Port()))
+		if err != nil {
+			log.Printf("can't resolve address: %s", err)
+			return
+		}
+		clientSrcAddr := &net.UDPAddr{IP: net.IPv4zero, Port: 0}
+		conn, err := net.DialUDP("udp", clientSrcAddr, dstAddr)
+		if err != nil {
+			log.Printf("connect to udp %s fail,ERR:%s", dstAddr.String(), err)
+			return
+		}
+		conn.SetDeadline(time.Now().Add(time.Millisecond * time.Duration(*s.cfg.Timeout*3)))
+		_, err = conn.Write(p.Data())
+		log.Printf("udp send:%v", len(p.Data()))
+		if err != nil {
+			log.Printf("send udp packet to %s fail,ERR:%s", dstAddr.String(), err)
+			conn.Close()
+			return
+		}
+		//log.Printf("send udp packet to %s success", dstAddr.String())
+		buf := make([]byte, 10*1024)
+		length, _, err := conn.ReadFromUDP(buf)
+		if err != nil {
+			log.Printf("read udp response from %s fail ,ERR:%s", dstAddr.String(), err)
+			conn.Close()
+			return
+		}
+		respBody := buf[0:length]
+		//封装来自真实服务器的数据,返回给访问者
+		respPacket := p.NewReply(respBody)
+		//log.Printf("revecived udp packet from %s", dstAddr.String())
+		if *s.cfg.LocalType == "tls" {
+			d, err := goaes.Encrypt(s.UDPKey(), respPacket)
+			if err != nil {
+				log.Printf("encrypt udp data fail from %s", dstAddr.String())
+				conn.Close()
+				return
+			}
+			s.udpSC.UDPListener.WriteToUDP(d, srcAddr)
+		} else {
+			s.udpSC.UDPListener.WriteToUDP(respPacket, srcAddr)
+		}
+		log.Printf("udp reply:%v", len(respPacket))
+	}
+
+}
+func (s *Socks) socksConnCallback(inConn net.Conn) {
 	defer func() {
 		if err := recover(); err != nil {
-			//log.Printf("socks conn handler crashed with err : %s \nstack: %s", err, string(debug.Stack()))
+			log.Printf("socks conn handler crashed with err : %s \nstack: %s", err, string(debug.Stack()))
 		}
 		utils.CloseConn(&inConn)
 	}()
-	var outConn net.Conn
-	defer utils.CloseConn(&outConn)
+	//协商开始
 
-	var b [1024]byte
-	n, err := inConn.Read(b[:])
+	//method select request
+	inConn.SetReadDeadline(time.Now().Add(time.Second * 3))
+	methodReq, err := socks.NewMethodsRequest(inConn)
+	inConn.SetReadDeadline(time.Time{})
 	if err != nil {
-		if err != io.EOF {
-			log.Printf("read request data fail,ERR: %s", err)
-		}
+		methodReq.Reply(socks.Method_NONE_ACCEPTABLE)
+		utils.CloseConn(&inConn)
+		log.Printf("new methods request fail,ERR: %s", err)
 		return
 	}
 
-	var reqBytes = b[:n]
-	//log.Printf("% x", b[:n])
-
-	//reply
-	n, err = inConn.Write([]byte{0x05, 0x00})
+	if !s.IsBasicAuth() {
+		if !methodReq.Select(socks.Method_NO_AUTH) {
+			methodReq.Reply(socks.Method_NONE_ACCEPTABLE)
+			utils.CloseConn(&inConn)
+			log.Printf("none method found : Method_NO_AUTH")
+			return
+		}
+		//method select reply
+		err = methodReq.Reply(socks.Method_NO_AUTH)
 		if err != nil {
 			log.Printf("reply answer data fail,ERR: %s", err)
+			utils.CloseConn(&inConn)
 			return
 		}
+		// log.Printf("% x", methodReq.Bytes())
+	} else {
+		//auth
+		if !methodReq.Select(socks.Method_USER_PASS) {
+			methodReq.Reply(socks.Method_NONE_ACCEPTABLE)
+			utils.CloseConn(&inConn)
+			log.Printf("none method found : Method_USER_PASS")
+			return
+		}
+		//method reply need auth
+		err = methodReq.Reply(socks.Method_USER_PASS)
+		if err != nil {
+			log.Printf("reply answer data fail,ERR: %s", err)
+			utils.CloseConn(&inConn)
+			return
+		}
+		//read auth
+		buf := make([]byte, 500)
+		inConn.SetReadDeadline(time.Now().Add(time.Second * 3))
+		n, err := inConn.Read(buf)
+		inConn.SetReadDeadline(time.Time{})
+		if err != nil {
+			utils.CloseConn(&inConn)
+			return
+		}
+		r := buf[:n]
+		user := string(r[2 : r[1]+2])
+		pass := string(r[2+r[1]+1:])
+		//log.Printf("user:%s,pass:%s", user, pass)
+		//auth
+		if s.basicAuth.CheckUserPass(user, pass) {
+			inConn.Write([]byte{0x01, 0x00})
+		} else {
+			inConn.Write([]byte{0x01, 0x01})
+			utils.CloseConn(&inConn)
+			return
+		}
+	}
 
-	//read answer
-	n, err = inConn.Read(b[:])
+	//request detail
+	request, err := socks.NewRequest(inConn)
 	if err != nil {
-		log.Printf("read answer data fail,ERR: %s", err)
+		log.Printf("read request data fail,ERR: %s", err)
+		utils.CloseConn(&inConn)
 		return
 	}
-	var headBytes = b[:n]
-	// log.Printf("% x", b[:n])
-	var addr string
-	switch b[3] {
-	case 0x01:
-		sip := sockIP{}
-		if err := binary.Read(bytes.NewReader(b[4:n]), binary.BigEndian, &sip); err != nil {
-			log.Printf("read ip fail,ERR: %s", err)
+	//协商结束
+
+	switch request.CMD() {
+	case socks.CMD_BIND:
+		//bind 不支持
+		request.TCPReply(socks.REP_UNKNOWN)
+		utils.CloseConn(&inConn)
+		return
+	case socks.CMD_CONNECT:
+		//tcp
+		s.proxyTCP(&inConn, methodReq, request)
+	case socks.CMD_ASSOCIATE:
+		//udp
+		s.proxyUDP(&inConn, methodReq, request)
+	}
+
+}
+func (s *Socks) proxyUDP(inConn *net.Conn, methodReq socks.MethodsRequest, request socks.Request) {
+	if *s.cfg.ParentType == "ssh" {
+		utils.CloseConn(inConn)
 		return
 	}
-		addr = sip.toAddr()
-	case 0x03:
-		host := string(b[5 : n-2])
-		var port uint16
-		err = binary.Read(bytes.NewReader(b[n-2:n]), binary.BigEndian, &port)
-		if err != nil {
-			log.Printf("read domain fail,ERR: %s", err)
-			return
-		}
-		addr = fmt.Sprintf("%s:%d", host, port)
+	host, _, _ := net.SplitHostPort((*inConn).LocalAddr().String())
+	_, port, _ := net.SplitHostPort(s.udpSC.UDPListener.LocalAddr().String())
+	log.Printf("proxy udp on %s", net.JoinHostPort(host, port))
+	request.UDPReply(socks.REP_SUCCESS, net.JoinHostPort(host, port))
 }
+func (s *Socks) proxyTCP(inConn *net.Conn, methodReq socks.MethodsRequest, request socks.Request) {
+	var outConn net.Conn
+	defer utils.CloseConn(&outConn)
+	var err interface{}
 	useProxy := true
+	tryCount := 0
+	maxTryCount := 5
+	for {
 		if *s.cfg.Always {
-		outConn, err = s.getOutConn(reqBytes, headBytes, addr)
+			outConn, err = s.getOutConn(methodReq.Bytes(), request.Bytes(), request.Addr())
 		} else {
 			if *s.cfg.Parent != "" {
-			s.checker.Add(addr, true, "", "", nil)
-			useProxy, _, _ = s.checker.IsBlocked(addr)
+				s.checker.Add(request.Addr(), true, "", "", nil)
+				useProxy, _, _ = s.checker.IsBlocked(request.Addr())
 				if useProxy {
-				outConn, err = s.getOutConn(reqBytes, headBytes, addr)
+					outConn, err = s.getOutConn(methodReq.Bytes(), request.Bytes(), request.Addr())
 				} else {
-				outConn, err = utils.ConnectHost(addr, *s.cfg.Timeout)
+					outConn, err = utils.ConnectHost(request.Addr(), *s.cfg.Timeout)
 				}
 			} else {
-			outConn, err = utils.ConnectHost(addr, *s.cfg.Timeout)
+				outConn, err = utils.ConnectHost(request.Addr(), *s.cfg.Timeout)
+			}
+		}
+		tryCount++
+		if err == nil || tryCount > maxTryCount {
+			break
+		} else {
+			log.Printf("get out conn fail,%s,retrying...", err)
+			time.Sleep(time.Second * 2)
 		}
 	}
 	if err != nil {
 		log.Printf("get out conn fail,%s", err)
-		inConn.Write([]byte{0x05, 0x01, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00})
+		request.TCPReply(socks.REP_NETWOR_UNREACHABLE)
 		return
 	}
-	log.Printf("use proxy %v : %s", useProxy, addr)
+	log.Printf("use proxy %v : %s", useProxy, request.Addr())
 
-	inConn.Write([]byte{0x05, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00})
+	request.TCPReply(socks.REP_SUCCESS)
+	inAddr := (*inConn).RemoteAddr().String()
+	inLocalAddr := (*inConn).LocalAddr().String()
 
-	inAddr := inConn.RemoteAddr().String()
-	inLocalAddr := inConn.LocalAddr().String()
-
-	log.Printf("conn %s - %s connected [%s]", inAddr, inLocalAddr, addr)
-	// utils.IoBind(outConn, inConn, func(err error) {
-	// 	log.Printf("conn %s - %s released [%s]", inAddr, inLocalAddr, addr)
-
-	// }, func(i int, b bool) {}, 0)
-	var bind = func() (err interface{}) {
-		defer func() {
-			if err == nil {
-				if err = recover(); err != nil {
-					log.Printf("bind crashed %s", err)
-				}
-			}
-		}()
-		go func() {
-			defer func() {
-				if err == nil {
-					if err = recover(); err != nil {
-						log.Printf("bind crashed %s", err)
-					}
-				}
-			}()
-			_, err = io.Copy(outConn, inConn)
-		}()
-		_, err = io.Copy(inConn, outConn)
-		return
-	}
-	bind()
-	log.Printf("conn %s - %s released [%s]", inAddr, inLocalAddr, addr)
-	utils.CloseConn(&inConn)
+	log.Printf("conn %s - %s connected [%s]", inAddr, inLocalAddr, request.Addr())
+	utils.IoBind(*inConn, outConn, func(err error) {
+		log.Printf("conn %s - %s released [%s]", inAddr, inLocalAddr, request.Addr())
+		utils.CloseConn(inConn)
 		utils.CloseConn(&outConn)
+	})
 }
-func (s *Socks) getOutConn(reqBytes, headBytes []byte, host string) (outConn net.Conn, err error) {
+func (s *Socks) getOutConn(methodBytes, reqBytes []byte, host string) (outConn net.Conn, err interface{}) {
 	switch *s.cfg.ParentType {
+	case "kcp":
+		fallthrough
 	case "tls":
 		fallthrough
 	case "tcp":
@@ -230,30 +451,40 @@ func (s *Socks) getOutConn(reqBytes, headBytes []byte, host string) (outConn net
 			var _outConn tls.Conn
 			_outConn, err = utils.TlsConnectHost(*s.cfg.Parent, *s.cfg.Timeout, s.cfg.CertBytes, s.cfg.KeyBytes)
 			outConn = net.Conn(&_outConn)
+		} else if *s.cfg.ParentType == "kcp" {
+			outConn, err = utils.ConnectKCPHost(*s.cfg.Parent, *s.cfg.KCPMethod, *s.cfg.KCPKey)
 		} else {
 			outConn, err = utils.ConnectHost(*s.cfg.Parent, *s.cfg.Timeout)
 		}
 		if err != nil {
+			err = fmt.Errorf("connect fail,%s", err)
 			return
 		}
 		var buf = make([]byte, 1024)
 		//var n int
-		_, err = outConn.Write(reqBytes)
+		_, err = outConn.Write(methodBytes)
 		if err != nil {
+			err = fmt.Errorf("write method fail,%s", err)
 			return
 		}
 		_, err = outConn.Read(buf)
 		if err != nil {
+			err = fmt.Errorf("read method reply fail,%s", err)
 			return
 		}
 		//resp := buf[:n]
 		//log.Printf("resp:%v", resp)
 
-		outConn.Write(headBytes)
-		_, err = outConn.Read(buf)
+		_, err = outConn.Write(reqBytes)
 		if err != nil {
+			err = fmt.Errorf("write req detail fail,%s", err)
 			return
 		}
+		// _, err = outConn.Read(buf)
+		// if err != nil {
+		// 	err = fmt.Errorf("read req reply fail,%s", err)
+		// 	return
+		// }
 		//result := buf[:n]
 		//log.Printf("result:%v", result)
 
@@ -264,10 +495,24 @@ func (s *Socks) getOutConn(reqBytes, headBytes []byte, host string) (outConn net
 		if tryCount >= maxTryCount {
 			return
 		}
+		wait := make(chan bool, 1)
+		go func() {
+			defer func() {
+				if err == nil {
+					err = recover()
+				}
+				wait <- true
+			}()
 			outConn, err = s.sshClient.Dial("tcp", host)
+		}()
+		select {
+		case <-wait:
+		case <-time.After(time.Millisecond * time.Duration(*s.cfg.Timeout) * 2):
+			err = fmt.Errorf("ssh dial %s timeout", host)
+			s.sshClient.Close()
+		}
 		if err != nil {
 			log.Printf("connect ssh fail, ERR: %s, retrying...", err)
-			s.sshClient.Close()
 			e := s.ConnectSSH()
 			if e == nil {
 				tryCount++
@@ -282,6 +527,12 @@ func (s *Socks) getOutConn(reqBytes, headBytes []byte, host string) (outConn net
 	return
 }
 func (s *Socks) ConnectSSH() (err error) {
+	select {
+	case s.lockChn <- true:
+	default:
+		err = fmt.Errorf("can not connect at same time")
+		return
+	}
 	config := ssh.ClientConfig{
 		Timeout: time.Duration(*s.cfg.Timeout) * time.Millisecond,
 		User:    *s.cfg.SSHUser,
@@ -290,15 +541,30 @@ func (s *Socks) ConnectSSH() (err error) {
 			return nil
 		},
 	}
+	if s.sshClient != nil {
+		s.sshClient.Close()
+	}
 	s.sshClient, err = ssh.Dial("tcp", *s.cfg.Parent, &config)
+	<-s.lockChn
 	return
 }
-
-type sockIP struct {
-	A, B, C, D byte
-	PORT       uint16
+func (s *Socks) InitBasicAuth() (err error) {
+	s.basicAuth = utils.NewBasicAuth()
+	if *s.cfg.AuthFile != "" {
+		var n = 0
+		n, err = s.basicAuth.AddFromFile(*s.cfg.AuthFile)
+		if err != nil {
+			err = fmt.Errorf("auth-file ERR:%s", err)
+			return
 		}
-
-func (ip sockIP) toAddr() string {
-	return fmt.Sprintf("%d.%d.%d.%d:%d", ip.A, ip.B, ip.C, ip.D, ip.PORT)
+		log.Printf("auth data added from file %d , total:%d", n, s.basicAuth.Total())
+	}
+	if len(*s.cfg.Auth) > 0 {
+		n := s.basicAuth.Add(*s.cfg.Auth)
+		log.Printf("auth data added %d, total:%d", n, s.basicAuth.Total())
+	}
+	return
+}
+func (s *Socks) IsBasicAuth() bool {
+	return *s.cfg.AuthFile != "" || len(*s.cfg.Auth) > 0
 }

services/tcp.go

@@ -109,7 +109,7 @@ func (s *TCP) OutToTCP(inConn *net.Conn) (err error) {
 		log.Printf("conn %s - %s - %s - %s released", inAddr, inLocalAddr, outLocalAddr, outAddr)
 		utils.CloseConn(inConn)
 		utils.CloseConn(&outConn)
-	}, func(n int, d bool) {}, 0)
+	})
 	log.Printf("conn %s - %s - %s - %s connected", inAddr, inLocalAddr, outLocalAddr, outAddr)
 	return
 }
@@ -167,7 +167,8 @@ func (s *TCP) InitOutConnPool() {
 		//parent string, timeout int, InitialCap int, MaxCap int
 		s.outPool = utils.NewOutPool(
 			*s.cfg.CheckParentInterval,
-			*s.cfg.ParentType == TYPE_TLS,
+			*s.cfg.ParentType,
+			"", "",
 			s.cfg.CertBytes, s.cfg.KeyBytes,
 			*s.cfg.Parent,
 			*s.cfg.Timeout,

services/tunnel_bridge.go

@@ -2,7 +2,6 @@ package services
 
 import (
 	"bufio"
-	"encoding/binary"
 	"log"
 	"net"
 	"proxy/utils"
@@ -11,14 +10,15 @@ import (
 )
 
 type ServerConn struct {
-	ClientLocalAddr string //tcp:2.2.22:333@ID
+	//ClientLocalAddr string //tcp:2.2.22:333@ID
 	Conn *net.Conn
-	//Conn *utils.HeartbeatReadWriter
 }
 type TunnelBridge struct {
 	cfg                TunnelBridgeArgs
 	serverConns        utils.ConcurrentMap
 	clientControlConns utils.ConcurrentMap
+	cmServer           utils.ConnManager
+	cmClient           utils.ConnManager
 }
 
 func NewTunnelBridge() Service {
@@ -26,6 +26,8 @@ func NewTunnelBridge() Service {
 		cfg:                TunnelBridgeArgs{},
 		serverConns:        utils.NewConcurrentMap(),
 		clientControlConns: utils.NewConcurrentMap(),
+		cmServer:           utils.NewConnManager(),
+		cmClient:           utils.NewConnManager(),
 	}
 }
 
@@ -53,79 +55,27 @@ func (s *TunnelBridge) Start(args interface{}) (err error) {
 		//log.Printf("connection from %s ", inConn.RemoteAddr())
 
 		reader := bufio.NewReader(inConn)
+		var err error
 		var connType uint8
-		err = binary.Read(reader, binary.LittleEndian, &connType)
+		err = utils.ReadPacket(reader, &connType)
 		if err != nil {
-			utils.CloseConn(&inConn)
+			log.Printf("read error,ERR:%s", err)
 			return
 		}
-		//log.Printf("conn type %d", connType)
-
-		var key, clientLocalAddr, ID string
-		var connTypeStrMap = map[uint8]string{CONN_SERVER: "server", CONN_CLIENT: "client", CONN_CONTROL: "client"}
-		var keyLength uint16
-		err = binary.Read(reader, binary.LittleEndian, &keyLength)
-		if err != nil {
-			return
-		}
-
-		_key := make([]byte, keyLength)
-		n, err := reader.Read(_key)
-		if err != nil {
-			return
-		}
-		if n != int(keyLength) {
-			return
-		}
-		key = string(_key)
-		//log.Printf("conn key %s", key)
-
-		if connType != CONN_CONTROL {
-			var IDLength uint16
-			err = binary.Read(reader, binary.LittleEndian, &IDLength)
-			if err != nil {
-				return
-			}
-			_id := make([]byte, IDLength)
-			n, err := reader.Read(_id)
-			if err != nil {
-				return
-			}
-			if n != int(IDLength) {
-				return
-			}
-			ID = string(_id)
-
-			if connType == CONN_SERVER {
-				var addrLength uint16
-				err = binary.Read(reader, binary.LittleEndian, &addrLength)
-				if err != nil {
-					return
-				}
-				_addr := make([]byte, addrLength)
-				n, err = reader.Read(_addr)
-				if err != nil {
-					return
-				}
-				if n != int(addrLength) {
-					return
-				}
-				clientLocalAddr = string(_addr)
-			}
-		}
-		log.Printf("connection from %s , key: %s , id: %s", connTypeStrMap[connType], key, ID)
-
 		switch connType {
 		case CONN_SERVER:
-			// hb := utils.NewHeartbeatReadWriter(&inConn, 3, func(err error, hb *utils.HeartbeatReadWriter) {
-			// 	log.Printf("%s conn %s from server released", key, ID)
-			// 	s.serverConns.Remove(ID)
-			// })
-			addr := clientLocalAddr + "@" + ID
+			var key, ID, clientLocalAddr, serverID string
+			err = utils.ReadPacketData(reader, &key, &ID, &clientLocalAddr, &serverID)
+			if err != nil {
+				log.Printf("read error,ERR:%s", err)
+				return
+			}
+			packet := utils.BuildPacketData(ID, clientLocalAddr, serverID)
+			log.Printf("server connection, key: %s , id: %s %s %s", key, ID, clientLocalAddr, serverID)
+
+			//addr := clientLocalAddr + "@" + ID
 			s.serverConns.Set(ID, ServerConn{
-				//Conn:            &hb,
 				Conn: &inConn,
-				ClientLocalAddr: addr,
 			})
 			for {
 				item, ok := s.clientControlConns.Get(key)
@@ -134,16 +84,27 @@ func (s *TunnelBridge) Start(args interface{}) (err error) {
 					time.Sleep(time.Second * 3)
 					continue
 				}
-				_, err := (*item.(*net.Conn)).Write([]byte(addr))
+				(*item.(*net.Conn)).SetWriteDeadline(time.Now().Add(time.Second * 3))
+				_, err := (*item.(*net.Conn)).Write(packet)
+				(*item.(*net.Conn)).SetWriteDeadline(time.Time{})
 				if err != nil {
 					log.Printf("%s client control conn write signal fail, err: %s, retrying...", key, err)
 					time.Sleep(time.Second * 3)
 					continue
 				} else {
+					s.cmServer.Add(serverID, ID, &inConn)
 					break
 				}
 			}
 		case CONN_CLIENT:
+			var key, ID, serverID string
+			err = utils.ReadPacketData(reader, &key, &ID, &serverID)
+			if err != nil {
+				log.Printf("read error,ERR:%s", err)
+				return
+			}
+			log.Printf("client connection , key: %s , id: %s, server id:%s", key, ID, serverID)
+
 			serverConnItem, ok := s.serverConns.Get(ID)
 			if !ok {
 				inConn.Close()
@@ -151,33 +112,127 @@ func (s *TunnelBridge) Start(args interface{}) (err error) {
 				return
 			}
 			serverConn := serverConnItem.(ServerConn).Conn
-			// hw := utils.NewHeartbeatReadWriter(&inConn, 3, func(err error, hw *utils.HeartbeatReadWriter) {
-			// 	log.Printf("%s conn %s from client released", key, ID)
-			// 	hw.Close()
-			// })
 			utils.IoBind(*serverConn, inConn, func(err error) {
-				// utils.IoBind(serverConn, inConn, func(isSrcErr bool, err error) {
-				//serverConn.Close()
 				(*serverConn).Close()
 				utils.CloseConn(&inConn)
-				// hw.Close()
 				s.serverConns.Remove(ID)
+				s.cmClient.RemoveOne(key, ID)
+				s.cmServer.RemoveOne(serverID, ID)
 				log.Printf("conn %s released", ID)
-			}, func(i int, b bool) {}, 0)
+			})
+			s.cmClient.Add(key, ID, &inConn)
 			log.Printf("conn %s created", ID)
-		case CONN_CONTROL:
+
+		case CONN_CLIENT_CONTROL:
+			var key string
+			err = utils.ReadPacketData(reader, &key)
+			if err != nil {
+				log.Printf("read error,ERR:%s", err)
+				return
+			}
+			log.Printf("client control connection, key: %s", key)
 			if s.clientControlConns.Has(key) {
 				item, _ := s.clientControlConns.Get(key)
-				//(*item.(*utils.HeartbeatReadWriter)).Close()
 				(*item.(*net.Conn)).Close()
 			}
-			// hb := utils.NewHeartbeatReadWriter(&inConn, 3, func(err error, hb *utils.HeartbeatReadWriter) {
-			// 	log.Printf("client %s disconnected", key)
-			// 	s.clientControlConns.Remove(key)
-			// })
-			// s.clientControlConns.Set(key, &hb)
 			s.clientControlConns.Set(key, &inConn)
 			log.Printf("set client %s control conn", key)
+
+		case CONN_SERVER_HEARBEAT:
+			var serverID string
+			err = utils.ReadPacketData(reader, &serverID)
+			if err != nil {
+				log.Printf("read error,ERR:%s", err)
+				return
+			}
+			log.Printf("server heartbeat connection, id: %s", serverID)
+			writeDie := make(chan bool)
+			readDie := make(chan bool)
+			go func() {
+				for {
+					inConn.SetWriteDeadline(time.Now().Add(time.Second * 3))
+					_, err = inConn.Write([]byte{0x00})
+					inConn.SetWriteDeadline(time.Time{})
+					if err != nil {
+						log.Printf("server heartbeat connection write err %s", err)
+						break
+					}
+					time.Sleep(time.Second * 3)
+				}
+				close(writeDie)
+			}()
+			go func() {
+				for {
+					signal := make([]byte, 1)
+					inConn.SetReadDeadline(time.Now().Add(time.Second * 6))
+					_, err := inConn.Read(signal)
+					inConn.SetReadDeadline(time.Time{})
+					if err != nil {
+						log.Printf("server heartbeat connection read err: %s", err)
+						break
+					} else {
+						// log.Printf("heartbeat from server ,id:%s", serverID)
+					}
+				}
+				close(readDie)
+			}()
+			select {
+			case <-readDie:
+			case <-writeDie:
+			}
+			utils.CloseConn(&inConn)
+			s.cmServer.Remove(serverID)
+			log.Printf("server heartbeat conn %s released", serverID)
+		case CONN_CLIENT_HEARBEAT:
+			var clientID string
+			err = utils.ReadPacketData(reader, &clientID)
+			if err != nil {
+				log.Printf("read error,ERR:%s", err)
+				return
+			}
+			log.Printf("client heartbeat connection, id: %s", clientID)
+			writeDie := make(chan bool)
+			readDie := make(chan bool)
+			go func() {
+				for {
+					inConn.SetWriteDeadline(time.Now().Add(time.Second * 3))
+					_, err = inConn.Write([]byte{0x00})
+					inConn.SetWriteDeadline(time.Time{})
+					if err != nil {
+						log.Printf("client heartbeat connection write err %s", err)
+						break
+					}
+					time.Sleep(time.Second * 3)
+				}
+				close(writeDie)
+			}()
+			go func() {
+				for {
+					signal := make([]byte, 1)
+					inConn.SetReadDeadline(time.Now().Add(time.Second * 6))
+					_, err := inConn.Read(signal)
+					inConn.SetReadDeadline(time.Time{})
+					if err != nil {
+						log.Printf("client control connection read err: %s", err)
+						break
+					} else {
+						// log.Printf("heartbeat from client ,id:%s", clientID)
+					}
+				}
+				close(readDie)
+			}()
+			select {
+			case <-readDie:
+			case <-writeDie:
+			}
+			utils.CloseConn(&inConn)
+			s.cmClient.Remove(clientID)
+			if s.clientControlConns.Has(clientID) {
+				item, _ := s.clientControlConns.Get(clientID)
+				(*item.(*net.Conn)).Close()
+			}
+			s.clientControlConns.Remove(clientID)
+			log.Printf("client heartbeat conn %s released", clientID)
 		}
 	})
 	if err != nil {

services/tunnel_client.go

@@ -1,29 +1,88 @@
 package services
 
 import (
-	"bytes"
 	"crypto/tls"
-	"encoding/binary"
 	"fmt"
 	"io"
 	"log"
 	"net"
 	"proxy/utils"
-	"strings"
 	"time"
 )
 
 type TunnelClient struct {
 	cfg      TunnelClientArgs
+	cm       utils.ConnManager
+	ctrlConn net.Conn
 }
 
 func NewTunnelClient() Service {
 	return &TunnelClient{
 		cfg: TunnelClientArgs{},
+		cm:  utils.NewConnManager(),
 	}
 }
 
 func (s *TunnelClient) InitService() {
+	s.InitHeartbeatDeamon()
+}
+func (s *TunnelClient) InitHeartbeatDeamon() {
+	log.Printf("heartbeat started")
+	go func() {
+		var heartbeatConn net.Conn
+		var ID = *s.cfg.Key
+		for {
+
+			//close all connection
+			s.cm.RemoveAll()
+			if s.ctrlConn != nil {
+				s.ctrlConn.Close()
+			}
+			utils.CloseConn(&heartbeatConn)
+			heartbeatConn, err := s.GetInConn(CONN_CLIENT_HEARBEAT, ID)
+			if err != nil {
+				log.Printf("heartbeat connection err: %s, retrying...", err)
+				time.Sleep(time.Second * 3)
+				utils.CloseConn(&heartbeatConn)
+				continue
+			}
+			log.Printf("heartbeat connection created,id:%s", ID)
+			writeDie := make(chan bool)
+			readDie := make(chan bool)
+			go func() {
+				for {
+					heartbeatConn.SetWriteDeadline(time.Now().Add(time.Second * 3))
+					_, err = heartbeatConn.Write([]byte{0x00})
+					heartbeatConn.SetWriteDeadline(time.Time{})
+					if err != nil {
+						log.Printf("heartbeat connection write err %s", err)
+						break
+					}
+					time.Sleep(time.Second * 3)
+				}
+				close(writeDie)
+			}()
+			go func() {
+				for {
+					signal := make([]byte, 1)
+					heartbeatConn.SetReadDeadline(time.Now().Add(time.Second * 6))
+					_, err := heartbeatConn.Read(signal)
+					heartbeatConn.SetReadDeadline(time.Time{})
+					if err != nil {
+						log.Printf("heartbeat connection read err: %s", err)
+						break
+					} else {
+						log.Printf("heartbeat from bridge")
+					}
+				}
+				close(readDie)
+			}()
+			select {
+			case <-readDie:
+			case <-writeDie:
+			}
+		}
+	}()
 }
 func (s *TunnelClient) CheckArgs() {
 	if *s.cfg.Parent != "" {
@@ -37,45 +96,47 @@ func (s *TunnelClient) CheckArgs() {
 	s.cfg.CertBytes, s.cfg.KeyBytes = utils.TlsBytes(*s.cfg.CertFile, *s.cfg.KeyFile)
 }
 func (s *TunnelClient) StopService() {
+	s.cm.RemoveAll()
 }
 func (s *TunnelClient) Start(args interface{}) (err error) {
 	s.cfg = args.(TunnelClientArgs)
 	s.CheckArgs()
 	s.InitService()
 	log.Printf("proxy on tunnel client mode")
+
 	for {
-		ctrlConn, err := s.GetInConn(CONN_CONTROL, "")
+		//close all conn
+		s.cm.Remove(*s.cfg.Key)
+		if s.ctrlConn != nil {
+			s.ctrlConn.Close()
+		}
+
+		s.ctrlConn, err = s.GetInConn(CONN_CLIENT_CONTROL, *s.cfg.Key)
 		if err != nil {
-			log.Printf("control connection err: %s", err)
+			log.Printf("control connection err: %s, retrying...", err)
 			time.Sleep(time.Second * 3)
-			utils.CloseConn(&ctrlConn)
+			if s.ctrlConn != nil {
+				s.ctrlConn.Close()
+			}
 			continue
 		}
-		// rw := utils.NewHeartbeatReadWriter(&ctrlConn, 3, func(err error, hb *utils.HeartbeatReadWriter) {
-		// 	log.Printf("ctrlConn err %s", err)
-		// 	utils.CloseConn(&ctrlConn)
-		// })
 		for {
-			signal := make([]byte, 50)
-			// n, err := rw.Read(signal)
-			n, err := ctrlConn.Read(signal)
+			var ID, clientLocalAddr, serverID string
+			err = utils.ReadPacketData(s.ctrlConn, &ID, &clientLocalAddr, &serverID)
 			if err != nil {
-				utils.CloseConn(&ctrlConn)
-				log.Printf("read connection signal err: %s", err)
+				if s.ctrlConn != nil {
+					s.ctrlConn.Close()
+				}
+				log.Printf("read connection signal err: %s, retrying...", err)
 				break
 			}
-			addr := string(signal[:n])
-			// log.Printf("n:%d addr:%s err:%s", n, addr, err)
-			// os.Exit(0)
-			log.Printf("signal revecived:%s", addr)
-			protocol := addr[:3]
-			atIndex := strings.Index(addr, "@")
-			ID := addr[atIndex+1:]
-			localAddr := addr[4:atIndex]
+			log.Printf("signal revecived:%s %s %s", serverID, ID, clientLocalAddr)
+			protocol := clientLocalAddr[:3]
+			localAddr := clientLocalAddr[4:]
 			if protocol == "udp" {
-				go s.ServeUDP(localAddr, ID)
+				go s.ServeUDP(localAddr, ID, serverID)
 			} else {
-				go s.ServeConn(localAddr, ID)
+				go s.ServeConn(localAddr, ID, serverID)
 			}
 		}
 	}
@@ -83,25 +144,13 @@ func (s *TunnelClient) Start(args interface{}) (err error) {
 func (s *TunnelClient) Clean() {
 	s.StopService()
 }
-func (s *TunnelClient) GetInConn(typ uint8, ID string) (outConn net.Conn, err error) {
+func (s *TunnelClient) GetInConn(typ uint8, data ...string) (outConn net.Conn, err error) {
 	outConn, err = s.GetConn()
 	if err != nil {
 		err = fmt.Errorf("connection err: %s", err)
 		return
 	}
-	keyBytes := []byte(*s.cfg.Key)
-	keyLength := uint16(len(keyBytes))
-	pkg := new(bytes.Buffer)
-	binary.Write(pkg, binary.LittleEndian, typ)
-	binary.Write(pkg, binary.LittleEndian, keyLength)
-	binary.Write(pkg, binary.LittleEndian, keyBytes)
-	if ID != "" {
-		IDBytes := []byte(ID)
-		IDLength := uint16(len(IDBytes))
-		binary.Write(pkg, binary.LittleEndian, IDLength)
-		binary.Write(pkg, binary.LittleEndian, IDBytes)
-	}
-	_, err = outConn.Write(pkg.Bytes())
+	_, err = outConn.Write(utils.BuildPacket(typ, data...))
 	if err != nil {
 		err = fmt.Errorf("write connection data err: %s ,retrying...", err)
 		utils.CloseConn(&outConn)
@@ -117,12 +166,13 @@ func (s *TunnelClient) GetConn() (conn net.Conn, err error) {
 	}
 	return
 }
-func (s *TunnelClient) ServeUDP(localAddr, ID string) {
+func (s *TunnelClient) ServeUDP(localAddr, ID, serverID string) {
 	var inConn net.Conn
 	var err error
 	// for {
 	for {
-		inConn, err = s.GetInConn(CONN_CLIENT, ID)
+		s.cm.RemoveOne(*s.cfg.Key, ID)
+		inConn, err = s.GetInConn(CONN_CLIENT, *s.cfg.Key, ID, serverID)
 		if err != nil {
 			utils.CloseConn(&inConn)
 			log.Printf("connection err: %s, retrying...", err)
@@ -132,13 +182,10 @@ func (s *TunnelClient) ServeUDP(localAddr, ID string) {
 			break
 		}
 	}
+	s.cm.Add(*s.cfg.Key, ID, &inConn)
 	log.Printf("conn %s created", ID)
-	// hw := utils.NewHeartbeatReadWriter(&inConn, 3, func(err error, hw *utils.HeartbeatReadWriter) {
-	// 	log.Printf("hw err %s", err)
-	// 	hw.Close()
-	// })
+
 	for {
-		// srcAddr, body, err := utils.ReadUDPPacket(&hw)
 		srcAddr, body, err := utils.ReadUDPPacket(inConn)
 		if err == io.EOF || err == io.ErrUnexpectedEOF {
 			log.Printf("connection %s released", ID)
@@ -191,11 +238,11 @@ func (s *TunnelClient) processUDPPacket(inConn *net.Conn, srcAddr, localAddr str
 	}
 	//log.Printf("send udp response success ,from:%s ,%d ,%v", dstAddr.String(), len(bs), bs)
 }
-func (s *TunnelClient) ServeConn(localAddr, ID string) {
+func (s *TunnelClient) ServeConn(localAddr, ID, serverID string) {
 	var inConn, outConn net.Conn
 	var err error
 	for {
-		inConn, err = s.GetInConn(CONN_CLIENT, ID)
+		inConn, err = s.GetInConn(CONN_CLIENT, *s.cfg.Key, ID, serverID)
 		if err != nil {
 			utils.CloseConn(&inConn)
 			log.Printf("connection err: %s, retrying...", err)
@@ -230,6 +277,8 @@ func (s *TunnelClient) ServeConn(localAddr, ID string) {
 		log.Printf("conn %s released", ID)
 		utils.CloseConn(&inConn)
 		utils.CloseConn(&outConn)
-	}, func(i int, b bool) {}, 0)
+		s.cm.RemoveOne(*s.cfg.Key, ID)
+	})
+	s.cm.Add(*s.cfg.Key, ID, &inConn)
 	log.Printf("conn %s created", ID)
 }

services/tunnel_server.go

@@ -1,9 +1,7 @@
 package services
 
 import (
-	"bytes"
 	"crypto/tls"
-	"encoding/binary"
 	"fmt"
 	"io"
 	"log"
@@ -25,21 +23,30 @@ type TunnelServerManager struct {
 	cfg      TunnelServerArgs
 	udpChn   chan UDPItem
 	sc       utils.ServerChannel
+	serverID string
+	cm       utils.ConnManager
 }
 
 func NewTunnelServerManager() Service {
 	return &TunnelServerManager{
 		cfg:      TunnelServerArgs{},
 		udpChn:   make(chan UDPItem, 50000),
+		serverID: utils.Uniqueid(),
+		cm:       utils.NewConnManager(),
 	}
 }
 func (s *TunnelServerManager) Start(args interface{}) (err error) {
 	s.cfg = args.(TunnelServerArgs)
+	s.CheckArgs()
 	if *s.cfg.Parent != "" {
 		log.Printf("use tls parent %s", *s.cfg.Parent)
 	} else {
 		log.Fatalf("parent required")
 	}
+
+	s.InitService()
+
+	log.Printf("server id: %s", s.serverID)
 	//log.Printf("route:%v", *s.cfg.Route)
 	for _, _info := range *s.cfg.Route {
 		IsUDP := *s.cfg.IsUDP
@@ -64,12 +71,16 @@ func (s *TunnelServerManager) Start(args interface{}) (err error) {
 			CertBytes: s.cfg.CertBytes,
 			KeyBytes:  s.cfg.KeyBytes,
 			Parent:    s.cfg.Parent,
+			CertFile:  s.cfg.CertFile,
+			KeyFile:   s.cfg.KeyFile,
 			Local:     &local,
 			IsUDP:     &IsUDP,
 			Remote:    &remote,
 			Key:       &KEY,
 			Timeout:   s.cfg.Timeout,
+			Mgr:       s,
 		})
+
 		if err != nil {
 			return
 		}
@@ -77,7 +88,96 @@ func (s *TunnelServerManager) Start(args interface{}) (err error) {
 	return
 }
 func (s *TunnelServerManager) Clean() {
-
+	s.StopService()
+}
+func (s *TunnelServerManager) StopService() {
+	s.cm.RemoveAll()
+}
+func (s *TunnelServerManager) CheckArgs() {
+	if *s.cfg.CertFile == "" || *s.cfg.KeyFile == "" {
+		log.Fatalf("cert and key file required")
+	}
+	s.cfg.CertBytes, s.cfg.KeyBytes = utils.TlsBytes(*s.cfg.CertFile, *s.cfg.KeyFile)
+}
+func (s *TunnelServerManager) InitService() {
+	s.InitHeartbeatDeamon()
+}
+func (s *TunnelServerManager) InitHeartbeatDeamon() {
+	log.Printf("heartbeat started")
+	go func() {
+		var heartbeatConn net.Conn
+		var ID string
+		for {
+			//close all connection
+			s.cm.Remove(ID)
+			utils.CloseConn(&heartbeatConn)
+			heartbeatConn, ID, err := s.GetOutConn(CONN_SERVER_HEARBEAT)
+			if err != nil {
+				log.Printf("heartbeat connection err: %s, retrying...", err)
+				time.Sleep(time.Second * 3)
+				utils.CloseConn(&heartbeatConn)
+				continue
+			}
+			log.Printf("heartbeat connection created,id:%s", ID)
+			writeDie := make(chan bool)
+			readDie := make(chan bool)
+			go func() {
+				for {
+					heartbeatConn.SetWriteDeadline(time.Now().Add(time.Second * 3))
+					_, err = heartbeatConn.Write([]byte{0x00})
+					heartbeatConn.SetWriteDeadline(time.Time{})
+					if err != nil {
+						log.Printf("heartbeat connection write err %s", err)
+						break
+					}
+					time.Sleep(time.Second * 3)
+				}
+				close(writeDie)
+			}()
+			go func() {
+				for {
+					signal := make([]byte, 1)
+					heartbeatConn.SetReadDeadline(time.Now().Add(time.Second * 6))
+					_, err := heartbeatConn.Read(signal)
+					heartbeatConn.SetReadDeadline(time.Time{})
+					if err != nil {
+						log.Printf("heartbeat connection read err: %s", err)
+						break
+					} else {
+						// log.Printf("heartbeat from bridge")
+					}
+				}
+				close(readDie)
+			}()
+			select {
+			case <-readDie:
+			case <-writeDie:
+			}
+		}
+	}()
+}
+func (s *TunnelServerManager) GetOutConn(typ uint8) (outConn net.Conn, ID string, err error) {
+	outConn, err = s.GetConn()
+	if err != nil {
+		log.Printf("connection err: %s", err)
+		return
+	}
+	ID = s.serverID
+	_, err = outConn.Write(utils.BuildPacket(typ, s.serverID))
+	if err != nil {
+		log.Printf("write connection data err: %s ,retrying...", err)
+		utils.CloseConn(&outConn)
+		return
+	}
+	return
+}
+func (s *TunnelServerManager) GetConn() (conn net.Conn, err error) {
+	var _conn tls.Conn
+	_conn, err = utils.TlsConnectHost(*s.cfg.Parent, *s.cfg.Timeout, s.cfg.CertBytes, s.cfg.KeyBytes)
+	if err == nil {
+		conn = net.Conn(&_conn)
+	}
+	return
 }
 func NewTunnelServer() Service {
 	return &TunnelServer{
@@ -99,13 +199,8 @@ func (s *TunnelServer) CheckArgs() {
 	if *s.cfg.Remote == "" {
 		log.Fatalf("remote required")
 	}
-	if *s.cfg.CertFile == "" || *s.cfg.KeyFile == "" {
-		log.Fatalf("cert and key file required")
-	}
-	s.cfg.CertBytes, s.cfg.KeyBytes = utils.TlsBytes(*s.cfg.CertFile, *s.cfg.KeyFile)
-}
-func (s *TunnelServer) StopService() {
 }
+
 func (s *TunnelServer) Start(args interface{}) (err error) {
 	s.cfg = args.(TunnelServerArgs)
 	s.CheckArgs()
@@ -135,7 +230,7 @@ func (s *TunnelServer) Start(args interface{}) (err error) {
 			var outConn net.Conn
 			var ID string
 			for {
-				outConn, ID, err = s.GetOutConn("")
+				outConn, ID, err = s.GetOutConn(CONN_SERVER)
 				if err != nil {
 					utils.CloseConn(&outConn)
 					log.Printf("connect to %s fail, err: %s, retrying...", *s.cfg.Parent, err)
@@ -145,17 +240,14 @@ func (s *TunnelServer) Start(args interface{}) (err error) {
 					break
 				}
 			}
-			// hb := utils.NewHeartbeatReadWriter(&outConn, 3, func(err error, hb *utils.HeartbeatReadWriter) {
-			// 	log.Printf("%s conn %s to bridge released", *s.cfg.Key, ID)
-			// 	hb.Close()
-			// })
-			// utils.IoBind(inConn, &hb, func(err error) {
 			utils.IoBind(inConn, outConn, func(err error) {
 				utils.CloseConn(&outConn)
 				utils.CloseConn(&inConn)
+				s.cfg.Mgr.cm.RemoveOne(s.cfg.Mgr.serverID, ID)
 				log.Printf("%s conn %s released", *s.cfg.Key, ID)
-			}, func(i int, b bool) {}, 0)
-
+			})
+			//add conn
+			s.cfg.Mgr.cm.Add(s.cfg.Mgr.serverID, ID, &inConn)
 			log.Printf("%s conn %s created", *s.cfg.Key, ID)
 		})
 		if err != nil {
@@ -166,37 +258,20 @@ func (s *TunnelServer) Start(args interface{}) (err error) {
 	return
 }
 func (s *TunnelServer) Clean() {
-	s.StopService()
+
 }
-func (s *TunnelServer) GetOutConn(id string) (outConn net.Conn, ID string, err error) {
+func (s *TunnelServer) GetOutConn(typ uint8) (outConn net.Conn, ID string, err error) {
 	outConn, err = s.GetConn()
 	if err != nil {
 		log.Printf("connection err: %s", err)
 		return
 	}
-	keyBytes := []byte(*s.cfg.Key)
-	keyLength := uint16(len(keyBytes))
-	ID = utils.Uniqueid()
-	IDBytes := []byte(ID)
-	if id != "" {
-		ID = id
-		IDBytes = []byte(id)
-	}
-	IDLength := uint16(len(IDBytes))
-	remoteAddr := []byte("tcp:" + *s.cfg.Remote)
+	remoteAddr := "tcp:" + *s.cfg.Remote
 	if *s.cfg.IsUDP {
-		remoteAddr = []byte("udp:" + *s.cfg.Remote)
+		remoteAddr = "udp:" + *s.cfg.Remote
 	}
-	remoteAddrLength := uint16(len(remoteAddr))
-	pkg := new(bytes.Buffer)
-	binary.Write(pkg, binary.LittleEndian, CONN_SERVER)
-	binary.Write(pkg, binary.LittleEndian, keyLength)
-	binary.Write(pkg, binary.LittleEndian, keyBytes)
-	binary.Write(pkg, binary.LittleEndian, IDLength)
-	binary.Write(pkg, binary.LittleEndian, IDBytes)
-	binary.Write(pkg, binary.LittleEndian, remoteAddrLength)
-	binary.Write(pkg, binary.LittleEndian, remoteAddr)
-	_, err = outConn.Write(pkg.Bytes())
+	ID = utils.Uniqueid()
+	_, err = outConn.Write(utils.BuildPacket(typ, *s.cfg.Key, ID, remoteAddr, s.cfg.Mgr.serverID))
 	if err != nil {
 		log.Printf("write connection data err: %s ,retrying...", err)
 		utils.CloseConn(&outConn)
@@ -229,7 +304,7 @@ func (s *TunnelServer) UDPConnDeamon() {
 		RETRY:
 			if outConn == nil {
 				for {
-					outConn, ID, err = s.GetOutConn("")
+					outConn, ID, err = s.GetOutConn(CONN_SERVER)
 					if err != nil {
 						// cmdChn <- true
 						outConn = nil

services/udp.go

@@ -207,7 +207,8 @@ func (s *UDP) InitOutConnPool() {
 		//parent string, timeout int, InitialCap int, MaxCap int
 		s.outPool = utils.NewOutPool(
 			*s.cfg.CheckParentInterval,
-			*s.cfg.ParentType == TYPE_TLS,
+			*s.cfg.ParentType,
+			"", "",
 			s.cfg.CertBytes, s.cfg.KeyBytes,
 			*s.cfg.Parent,
 			*s.cfg.Timeout,

utils/aes/aes.go

@@ -0,0 +1,84 @@
+// Playbook - http://play.golang.org/p/3wFl4lacjX
+
+package goaes
+
+import (
+	"bytes"
+	"crypto/aes"
+	"crypto/cipher"
+	"crypto/rand"
+	"errors"
+	"io"
+	"strings"
+)
+
+func addBase64Padding(value string) string {
+	m := len(value) % 4
+	if m != 0 {
+		value += strings.Repeat("=", 4-m)
+	}
+
+	return value
+}
+
+func removeBase64Padding(value string) string {
+	return strings.Replace(value, "=", "", -1)
+}
+
+func Pad(src []byte) []byte {
+	padding := aes.BlockSize - len(src)%aes.BlockSize
+	padtext := bytes.Repeat([]byte{byte(padding)}, padding)
+	return append(src, padtext...)
+}
+
+func Unpad(src []byte) ([]byte, error) {
+	length := len(src)
+	unpadding := int(src[length-1])
+
+	if unpadding > length {
+		return nil, errors.New("unpad error. This could happen when incorrect encryption key is used")
+	}
+
+	return src[:(length - unpadding)], nil
+}
+
+func Encrypt(key []byte, text []byte) ([]byte, error) {
+	block, err := aes.NewCipher(key)
+	if err != nil {
+		return nil, err
+	}
+
+	msg := Pad(text)
+	ciphertext := make([]byte, aes.BlockSize+len(msg))
+	iv := ciphertext[:aes.BlockSize]
+	if _, err := io.ReadFull(rand.Reader, iv); err != nil {
+		return nil, err
+	}
+
+	cfb := cipher.NewCFBEncrypter(block, iv)
+	cfb.XORKeyStream(ciphertext[aes.BlockSize:], []byte(msg))
+
+	return ciphertext, nil
+}
+
+func Decrypt(key []byte, text []byte) ([]byte, error) {
+	block, err := aes.NewCipher(key)
+	if err != nil {
+		return nil, err
+	}
+	if (len(text) % aes.BlockSize) != 0 {
+		return nil, errors.New("blocksize must be multipe of decoded message length")
+	}
+	iv := text[:aes.BlockSize]
+	msg := text[aes.BlockSize:]
+
+	cfb := cipher.NewCFBDecrypter(block, iv)
+	cfb.XORKeyStream(msg, msg)
+
+	unpadMsg, err := Unpad(msg)
+	if err != nil {
+		return nil, err
+	}
+
+	return unpadMsg, nil
+}

utils/functions.go

@@ -3,6 +3,7 @@ package utils
 import (
 	"bufio"
 	"bytes"
+	"crypto/sha1"
 	"crypto/tls"
 	"crypto/x509"
 	"encoding/binary"
@@ -16,40 +17,30 @@ import (
 	"net/http"
 	"os"
 	"os/exec"
-	"sync"
+
+	"golang.org/x/crypto/pbkdf2"
 
 	"runtime/debug"
 	"strconv"
 	"strings"
 	"time"
+
+	kcp "github.com/xtaci/kcp-go"
 )
 
-func IoBind(dst io.ReadWriter, src io.ReadWriter, fn func(err error), cfn func(count int, isPositive bool), bytesPreSec float64) {
-	var one = &sync.Once{}
+func IoBind(dst io.ReadWriter, src io.ReadWriter, fn func(err error)) {
+	go func() {
+		e1 := make(chan error, 1)
+		e2 := make(chan error, 1)
 		go func() {
 			defer func() {
 				if e := recover(); e != nil {
 					log.Printf("IoBind crashed , err : %s , \ntrace:%s", e, string(debug.Stack()))
 				}
 			}()
-		var err error
-		if bytesPreSec > 0 {
-			newreader := NewReader(src)
-			newreader.SetRateLimit(bytesPreSec)
-			_, err = ioCopy(dst, newreader, func(c int) {
-				cfn(c, false)
-			})
 
-		} else {
-			_, err = ioCopy(dst, src, func(c int) {
-				cfn(c, false)
-			})
-		}
-		if err != nil {
-			one.Do(func() {
-				fn(err)
-			})
-		}
+			_, e := io.Copy(dst, src)
+			e1 <- e
 		}()
 		go func() {
 			defer func() {
@@ -57,53 +48,19 @@ func IoBind(dst io.ReadWriter, src io.ReadWriter, fn func(err error), cfn func(c
 					log.Printf("IoBind crashed , err : %s , \ntrace:%s", e, string(debug.Stack()))
 				}
 			}()
+
+			_, e := io.Copy(src, dst)
+			e2 <- e
+		}()
 		var err error
-		if bytesPreSec > 0 {
-			newReader := NewReader(dst)
-			newReader.SetRateLimit(bytesPreSec)
-			_, err = ioCopy(src, newReader, func(c int) {
-				cfn(c, true)
-			})
-		} else {
-			_, err = ioCopy(src, dst, func(c int) {
-				cfn(c, true)
-			})
+		select {
+		case err = <-e1:
+		case err = <-e2:
 		}
-		if err != nil {
-			one.Do(func() {
 		fn(err)
-			})
-		}
 	}()
 }
-func ioCopy(dst io.Writer, src io.Reader, fn ...func(count int)) (written int64, err error) {
-	buf := make([]byte, 32*1024)
-	for {
-		nr, er := src.Read(buf)
-		if nr > 0 {
-			nw, ew := dst.Write(buf[0:nr])
-			if nw > 0 {
-				written += int64(nw)
-				if len(fn) == 1 {
-					fn[0](nw)
-				}
-			}
-			if ew != nil {
-				err = ew
-				break
-			}
-			if nr != nw {
-				err = io.ErrShortWrite
-				break
-			}
-		}
-		if er != nil {
-			err = er
-			break
-		}
-	}
-	return written, err
-}
+
 func TlsConnectHost(host string, timeout int, certBytes, keyBytes []byte) (conn tls.Conn, err error) {
 	h := strings.Split(host, ":")
 	port, _ := strconv.Atoi(h[1])
@@ -145,6 +102,10 @@ func ConnectHost(hostAndPort string, timeout int) (conn net.Conn, err error) {
 	conn, err = net.DialTimeout("tcp", hostAndPort, time.Duration(timeout)*time.Millisecond)
 	return
 }
+func ConnectKCPHost(hostAndPort, method, key string) (conn net.Conn, err error) {
+	conn, err = kcp.DialWithOptions(hostAndPort, GetKCPBlock(method, key), 10, 3)
+	return
+}
 func ListenTls(ip string, port int, certBytes, keyBytes []byte) (ln *net.Listener, err error) {
 	var cert tls.Certificate
 	cert, err = tls.X509KeyPair(certBytes, keyBytes)
@@ -194,6 +155,9 @@ func HTTPGet(URL string, timeout int) (err error) {
 }
 
 func CloseConn(conn *net.Conn) {
+	defer func() {
+		_ = recover()
+	}()
 	if conn != nil && *conn != nil {
 		(*conn).SetDeadline(time.Now().Add(time.Millisecond))
 		(*conn).Close()
@@ -312,6 +276,86 @@ func Uniqueid() string {
 	s := fmt.Sprintf("%d", src.Int63())
 	return s[len(s)-5:len(s)-1] + fmt.Sprintf("%d", uint64(time.Now().UnixNano()))[8:]
 }
+func ReadData(r io.Reader) (data string, err error) {
+	var len uint16
+	err = binary.Read(r, binary.LittleEndian, &len)
+	if err != nil {
+		return
+	}
+	var n int
+	_data := make([]byte, len)
+	n, err = r.Read(_data)
+	if err != nil {
+		return
+	}
+	if n != int(len) {
+		err = fmt.Errorf("error data len")
+		return
+	}
+	data = string(_data)
+	return
+}
+func ReadPacketData(r io.Reader, data ...*string) (err error) {
+	for _, d := range data {
+		*d, err = ReadData(r)
+		if err != nil {
+			return
+		}
+	}
+	return
+}
+func ReadPacket(r io.Reader, typ *uint8, data ...*string) (err error) {
+	var connType uint8
+	err = binary.Read(r, binary.LittleEndian, &connType)
+	if err != nil {
+		return
+	}
+	*typ = connType
+	for _, d := range data {
+		*d, err = ReadData(r)
+		if err != nil {
+			return
+		}
+	}
+	return
+}
+func BuildPacket(typ uint8, data ...string) []byte {
+	pkg := new(bytes.Buffer)
+	binary.Write(pkg, binary.LittleEndian, typ)
+	for _, d := range data {
+		bytes := []byte(d)
+		binary.Write(pkg, binary.LittleEndian, uint16(len(bytes)))
+		binary.Write(pkg, binary.LittleEndian, bytes)
+	}
+	return pkg.Bytes()
+}
+func BuildPacketData(data ...string) []byte {
+	pkg := new(bytes.Buffer)
+	for _, d := range data {
+		bytes := []byte(d)
+		binary.Write(pkg, binary.LittleEndian, uint16(len(bytes)))
+		binary.Write(pkg, binary.LittleEndian, bytes)
+	}
+	return pkg.Bytes()
+}
+func SubStr(str string, start, end int) string {
+	if len(str) == 0 {
+		return ""
+	}
+	if end >= len(str) {
+		end = len(str) - 1
+	}
+	return str[start:end]
+}
+func SubBytes(bytes []byte, start, end int) []byte {
+	if len(bytes) == 0 {
+		return []byte{}
+	}
+	if end >= len(bytes) {
+		end = len(bytes) - 1
+	}
+	return bytes[start:end]
+}
 func TlsBytes(cert, key string) (certBytes, keyBytes []byte) {
 	certBytes, err := ioutil.ReadFile(cert)
 	if err != nil {
@@ -325,6 +369,38 @@ func TlsBytes(cert, key string) (certBytes, keyBytes []byte) {
 	}
 	return
 }
+func GetKCPBlock(method, key string) (block kcp.BlockCrypt) {
+	pass := pbkdf2.Key([]byte(key), []byte(key), 4096, 32, sha1.New)
+	switch method {
+	case "sm4":
+		block, _ = kcp.NewSM4BlockCrypt(pass[:16])
+	case "tea":
+		block, _ = kcp.NewTEABlockCrypt(pass[:16])
+	case "xor":
+		block, _ = kcp.NewSimpleXORBlockCrypt(pass)
+	case "none":
+		block, _ = kcp.NewNoneBlockCrypt(pass)
+	case "aes-128":
+		block, _ = kcp.NewAESBlockCrypt(pass[:16])
+	case "aes-192":
+		block, _ = kcp.NewAESBlockCrypt(pass[:24])
+	case "blowfish":
+		block, _ = kcp.NewBlowfishBlockCrypt(pass)
+	case "twofish":
+		block, _ = kcp.NewTwofishBlockCrypt(pass)
+	case "cast5":
+		block, _ = kcp.NewCast5BlockCrypt(pass[:16])
+	case "3des":
+		block, _ = kcp.NewTripleDESBlockCrypt(pass[:24])
+	case "xtea":
+		block, _ = kcp.NewXTEABlockCrypt(pass[:16])
+	case "salsa20":
+		block, _ = kcp.NewSalsa20BlockCrypt(pass)
+	default:
+		block, _ = kcp.NewAESBlockCrypt(pass)
+	}
+	return
+}
 
 // type sockaddr struct {
 // 	family uint16

utils/serve-channel.go

@@ -6,6 +6,8 @@ import (
 	"net"
 	"runtime/debug"
 	"strconv"
+
+	kcp "github.com/xtaci/kcp-go"
 )
 
 type ServerChannel struct {
@@ -55,7 +57,7 @@ func (sc *ServerChannel) ListenTls(certBytes, keyBytes []byte, fn func(conn net.
 					go func() {
 						defer func() {
 							if e := recover(); e != nil {
-								log.Printf("connection handler crashed , err : %s , \ntrace:%s", e, string(debug.Stack()))
+								log.Printf("tls connection handler crashed , err : %s , \ntrace:%s", e, string(debug.Stack()))
 							}
 						}()
 						fn(conn)
@@ -89,7 +91,7 @@ func (sc *ServerChannel) ListenTCP(fn func(conn net.Conn)) (err error) {
 					go func() {
 						defer func() {
 							if e := recover(); e != nil {
-								log.Printf("connection handler crashed , err : %s , \ntrace:%s", e, string(debug.Stack()))
+								log.Printf("tcp connection handler crashed , err : %s , \ntrace:%s", e, string(debug.Stack()))
 							}
 						}()
 						fn(conn)
@@ -136,3 +138,35 @@ func (sc *ServerChannel) ListenUDP(fn func(packet []byte, localAddr, srcAddr *ne
 	}
 	return
 }
+func (sc *ServerChannel) ListenKCP(method, key string, fn func(conn net.Conn)) (err error) {
+	var l net.Listener
+	l, err = kcp.ListenWithOptions(fmt.Sprintf("%s:%d", sc.ip, sc.port), GetKCPBlock(method, key), 10, 3)
+	if err == nil {
+		sc.Listener = &l
+		go func() {
+			defer func() {
+				if e := recover(); e != nil {
+					log.Printf("ListenKCP crashed , err : %s , \ntrace:%s", e, string(debug.Stack()))
+				}
+			}()
+			for {
+				var conn net.Conn
+				conn, err = (*sc.Listener).Accept()
+				if err == nil {
+					go func() {
+						defer func() {
+							if e := recover(); e != nil {
+								log.Printf("kcp connection handler crashed , err : %s , \ntrace:%s", e, string(debug.Stack()))
+							}
+						}()
+						fn(conn)
+					}()
+				} else {
+					sc.errAcceptHandler(err)
+					break
+				}
+			}
+		}()
+	}
+	return
+}

utils/socks/structs.go

@@ -0,0 +1,260 @@
+package socks
+
+import (
+	"bytes"
+	"encoding/binary"
+	"fmt"
+	"io"
+	"net"
+	"strconv"
+)
+
+const (
+	Method_NO_AUTH         = uint8(0x00)
+	Method_GSSAPI          = uint8(0x01)
+	Method_USER_PASS       = uint8(0x02)
+	Method_IANA            = uint8(0x7F)
+	Method_RESVERVE        = uint8(0x80)
+	Method_NONE_ACCEPTABLE = uint8(0xFF)
+	VERSION_V5             = uint8(0x05)
+	CMD_CONNECT            = uint8(0x01)
+	CMD_BIND               = uint8(0x02)
+	CMD_ASSOCIATE          = uint8(0x03)
+	ATYP_IPV4              = uint8(0x01)
+	ATYP_DOMAIN            = uint8(0x03)
+	ATYP_IPV6              = uint8(0x04)
+	REP_SUCCESS            = uint8(0x00)
+	REP_REQ_FAIL           = uint8(0x01)
+	REP_RULE_FORBIDDEN     = uint8(0x02)
+	REP_NETWOR_UNREACHABLE = uint8(0x03)
+	REP_HOST_UNREACHABLE   = uint8(0x04)
+	REP_CONNECTION_REFUSED = uint8(0x05)
+	REP_TTL_TIMEOUT        = uint8(0x06)
+	REP_CMD_UNSUPPORTED    = uint8(0x07)
+	REP_ATYP_UNSUPPORTED   = uint8(0x08)
+	REP_UNKNOWN            = uint8(0x09)
+	RSV                    = uint8(0x00)
+)
+
+var (
+	ZERO_IP   = []byte{0x00, 0x00, 0x00, 0x00}
+	ZERO_PORT = []byte{0x00, 0x00}
+)
+
+type Request struct {
+	ver         uint8
+	cmd         uint8
+	reserve     uint8
+	addressType uint8
+	dstAddr     string
+	dstPort     string
+	dstHost     string
+	bytes       []byte
+	rw          io.ReadWriter
+}
+
+func NewRequest(rw io.ReadWriter) (req Request, err interface{}) {
+	var b [1024]byte
+	var n int
+	req = Request{rw: rw}
+	n, err = rw.Read(b[:])
+	if err != nil {
+		err = fmt.Errorf("read req data fail,ERR: %s", err)
+		return
+	}
+	req.ver = uint8(b[0])
+	req.cmd = uint8(b[1])
+	req.reserve = uint8(b[2])
+	req.addressType = uint8(b[3])
+
+	if b[0] != 0x5 {
+		err = fmt.Errorf("sosck version supported")
+		req.TCPReply(REP_REQ_FAIL)
+		return
+	}
+	switch b[3] {
+	case 0x01: //IP V4
+		req.dstHost = net.IPv4(b[4], b[5], b[6], b[7]).String()
+	case 0x03: //域名
+		req.dstHost = string(b[5 : n-2]) //b[4]表示域名的长度
+	case 0x04: //IP V6
+		req.dstHost = net.IP{b[4], b[5], b[6], b[7], b[8], b[9], b[10], b[11], b[12], b[13], b[14], b[15], b[16], b[17], b[18], b[19]}.String()
+	}
+	req.dstPort = strconv.Itoa(int(b[n-2])<<8 | int(b[n-1]))
+	req.dstAddr = net.JoinHostPort(req.dstHost, req.dstPort)
+	req.bytes = b[:n]
+	return
+}
+func (s *Request) Bytes() []byte {
+	return s.bytes
+}
+func (s *Request) Addr() string {
+	return s.dstAddr
+}
+func (s *Request) Host() string {
+	return s.dstHost
+}
+func (s *Request) Port() string {
+	return s.dstPort
+}
+func (s *Request) AType() uint8 {
+	return s.addressType
+}
+func (s *Request) CMD() uint8 {
+	return s.cmd
+}
+
+func (s *Request) TCPReply(rep uint8) (err error) {
+	_, err = s.rw.Write(s.NewReply(rep, "0.0.0.0:0"))
+	return
+}
+func (s *Request) UDPReply(rep uint8, addr string) (err error) {
+	_, err = s.rw.Write(s.NewReply(rep, addr))
+	return
+}
+func (s *Request) NewReply(rep uint8, addr string) []byte {
+	var response bytes.Buffer
+	host, port, _ := net.SplitHostPort(addr)
+	ip := net.ParseIP(host)
+	ipb := ip.To4()
+	atyp := ATYP_IPV4
+	ipv6 := ip.To16()
+	zeroiIPv6 := fmt.Sprintf("%d%d%d%d%d%d%d%d%d%d%d%d",
+		ipv6[0], ipv6[1], ipv6[2], ipv6[3],
+		ipv6[4], ipv6[5], ipv6[6], ipv6[7],
+		ipv6[8], ipv6[9], ipv6[10], ipv6[11],
+	)
+	if ipv6 != nil && "0000000000255255" != zeroiIPv6 {
+		atyp = ATYP_IPV6
+		ipb = ip.To16()
+	}
+	porti, _ := strconv.Atoi(port)
+	portb := make([]byte, 2)
+	binary.BigEndian.PutUint16(portb, uint16(porti))
+	// log.Printf("atyp : %v", atyp)
+	// log.Printf("ip : %v", []byte(ip))
+	response.WriteByte(VERSION_V5)
+	response.WriteByte(rep)
+	response.WriteByte(RSV)
+	response.WriteByte(atyp)
+	response.Write(ipb)
+	response.Write(portb)
+	return response.Bytes()
+}
+
+type MethodsRequest struct {
+	ver          uint8
+	methodsCount uint8
+	methods      []uint8
+	bytes        []byte
+	rw           *io.ReadWriter
+}
+
+func NewMethodsRequest(r io.ReadWriter) (s MethodsRequest, err interface{}) {
+	defer func() {
+		if err == nil {
+			err = recover()
+		}
+	}()
+	s = MethodsRequest{}
+	s.rw = &r
+	var buf = make([]byte, 300)
+	var n int
+	n, err = r.Read(buf)
+	if err != nil {
+		return
+	}
+	if buf[0] != 0x05 {
+		err = fmt.Errorf("socks version not supported")
+		return
+	}
+	if n != int(buf[1])+int(2) {
+		err = fmt.Errorf("socks methods data length error")
+		return
+	}
+
+	s.ver = buf[0]
+	s.methodsCount = buf[1]
+	s.methods = buf[2:n]
+	s.bytes = buf[:n]
+	return
+}
+func (s *MethodsRequest) Version() uint8 {
+	return s.ver
+}
+func (s *MethodsRequest) MethodsCount() uint8 {
+	return s.methodsCount
+}
+func (s *MethodsRequest) Select(method uint8) bool {
+	for _, m := range s.methods {
+		if m == method {
+			return true
+		}
+	}
+	return false
+}
+func (s *MethodsRequest) Reply(method uint8) (err error) {
+	_, err = (*s.rw).Write([]byte{byte(VERSION_V5), byte(method)})
+	return
+}
+func (s *MethodsRequest) Bytes() []byte {
+	return s.bytes
+}
+
+type UDPPacket struct {
+	rsv     uint16
+	frag    uint8
+	atype   uint8
+	dstHost string
+	dstPort string
+	data    []byte
+	header  []byte
+	bytes   []byte
+}
+
+func ParseUDPPacket(b []byte) (p UDPPacket, err error) {
+	p = UDPPacket{}
+	p.frag = uint8(b[2])
+	p.bytes = b
+	if p.frag != 0 {
+		err = fmt.Errorf("FRAG only support for 0 , %v ,%v", p.frag, b[:4])
+		return
+	}
+	portIndex := 0
+	p.atype = b[3]
+	switch p.atype {
+	case ATYP_IPV4: //IP V4
+		p.dstHost = net.IPv4(b[4], b[5], b[6], b[7]).String()
+		portIndex = 8
+	case ATYP_DOMAIN: //域名
+		domainLen := uint8(b[4])
+		p.dstHost = string(b[5 : 5+domainLen]) //b[4]表示域名的长度
+		portIndex = int(5 + domainLen)
+	case ATYP_IPV6: //IP V6
+		p.dstHost = net.IP{b[4], b[5], b[6], b[7], b[8], b[9], b[10], b[11], b[12], b[13], b[14], b[15], b[16], b[17], b[18], b[19]}.String()
+		portIndex = 20
+	}
+	p.dstPort = strconv.Itoa(int(b[portIndex])<<8 | int(b[portIndex+1]))
+	p.data = b[portIndex+2:]
+	p.header = b[:portIndex+2]
+	return
+}
+func (s *UDPPacket) Header() []byte {
+	return s.header
+}
+func (s *UDPPacket) NewReply(data []byte) []byte {
+	var buf bytes.Buffer
+	buf.Write(s.header)
+	buf.Write(data)
+	return buf.Bytes()
+}
+func (s *UDPPacket) Host() string {
+	return s.dstHost
+}
+
+func (s *UDPPacket) Port() string {
+	return s.dstPort
+}
+func (s *UDPPacket) Data() []byte {
+	return s.data
+}

utils/structs.go

@@ -213,7 +213,12 @@ func (ba *BasicAuth) Add(userpassArr []string) (n int) {
 	}
 	return
 }
-
+func (ba *BasicAuth) CheckUserPass(user, pass string) (ok bool) {
+	if p, _ok := ba.data.Get(user); _ok {
+		return p.(string) == pass
+	}
+	return
+}
 func (ba *BasicAuth) Check(userpass string) (ok bool) {
 	u := strings.Split(strings.Trim(userpass, " "), ":")
 	if len(u) == 2 {
@@ -256,13 +261,13 @@ func NewHTTPRequest(inConn *net.Conn, bufSize int, isBasicAuth bool, basicAuth *
 	req.HeadBuf = buf[:len]
 	index := bytes.IndexByte(req.HeadBuf, '\n')
 	if index == -1 {
-		err = fmt.Errorf("http decoder data line err:%s", string(req.HeadBuf)[:50])
+		err = fmt.Errorf("http decoder data line err:%s", SubStr(string(req.HeadBuf), 0, 50))
 		CloseConn(inConn)
 		return
 	}
 	fmt.Sscanf(string(req.HeadBuf[:index]), "%s%s", &req.Method, &req.hostOrURL)
 	if req.Method == "" || req.hostOrURL == "" {
-		err = fmt.Errorf("http decoder data err:%s", string(req.HeadBuf)[:50])
+		err = fmt.Errorf("http decoder data err:%s", SubStr(string(req.HeadBuf), 0, 50))
 		CloseConn(inConn)
 		return
 	}
@@ -385,19 +390,23 @@ func (req *HTTPRequest) addPortIfNot() (newHost string) {
 type OutPool struct {
 	Pool      ConnPool
 	dur       int
-	isTLS     bool
+	typ       string
 	certBytes []byte
 	keyBytes  []byte
+	kcpMethod string
+	kcpKey    string
 	address   string
 	timeout   int
 }
 
-func NewOutPool(dur int, isTLS bool, certBytes, keyBytes []byte, address string, timeout int, InitialCap int, MaxCap int) (op OutPool) {
+func NewOutPool(dur int, typ, kcpMethod, kcpKey string, certBytes, keyBytes []byte, address string, timeout int, InitialCap int, MaxCap int) (op OutPool) {
 	op = OutPool{
 		dur:       dur,
-		isTLS:     isTLS,
+		typ:       typ,
 		certBytes: certBytes,
 		keyBytes:  keyBytes,
+		kcpMethod: kcpMethod,
+		kcpKey:    kcpKey,
 		address:   address,
 		timeout:   timeout,
 	}
@@ -431,12 +440,14 @@ func NewOutPool(dur int, isTLS bool, certBytes, keyBytes []byte, address string,
 	return
 }
 func (op *OutPool) getConn() (conn interface{}, err error) {
-	if op.isTLS {
+	if op.typ == "tls" {
 		var _conn tls.Conn
 		_conn, err = TlsConnectHost(op.address, op.timeout, op.certBytes, op.keyBytes)
 		if err == nil {
 			conn = net.Conn(&_conn)
 		}
+	} else if op.typ == "kcp" {
+		conn, err = ConnectKCPHost(op.address, op.kcpMethod, op.kcpKey)
 	} else {
 		conn, err = ConnectHost(op.address, op.timeout)
 	}
@@ -612,3 +623,64 @@ func (rw *HeartbeatReadWriter) Write(p []byte) (n int, err error) {
 	}
 	return
 }
+
+type ConnManager struct {
+	pool ConcurrentMap
+	l    *sync.Mutex
+}
+
+func NewConnManager() ConnManager {
+	cm := ConnManager{
+		pool: NewConcurrentMap(),
+		l:    &sync.Mutex{},
+	}
+	return cm
+}
+func (cm *ConnManager) Add(key, ID string, conn *net.Conn) {
+	cm.pool.Upsert(key, nil, func(exist bool, valueInMap interface{}, newValue interface{}) interface{} {
+		var conns ConcurrentMap
+		if !exist {
+			conns = NewConcurrentMap()
+		} else {
+			conns = valueInMap.(ConcurrentMap)
+		}
+		if conns.Has(ID) {
+			v, _ := conns.Get(ID)
+			(*v.(*net.Conn)).Close()
+		}
+		conns.Set(ID, conn)
+		log.Printf("%s conn added", key)
+		return conns
+	})
+}
+func (cm *ConnManager) Remove(key string) {
+	var conns ConcurrentMap
+	if v, ok := cm.pool.Get(key); ok {
+		conns = v.(ConcurrentMap)
+		conns.IterCb(func(key string, v interface{}) {
+			CloseConn(v.(*net.Conn))
+		})
+		log.Printf("%s conns closed", key)
+	}
+	cm.pool.Remove(key)
+}
+func (cm *ConnManager) RemoveOne(key string, ID string) {
+	defer cm.l.Unlock()
+	cm.l.Lock()
+	var conns ConcurrentMap
+	if v, ok := cm.pool.Get(key); ok {
+		conns = v.(ConcurrentMap)
+		if conns.Has(ID) {
+			v, _ := conns.Get(ID)
+			(*v.(*net.Conn)).Close()
+			conns.Remove(ID)
+			cm.pool.Set(key, conns)
+			log.Printf("%s %s conn closed", key, ID)
+		}
+	}
+}
+func (cm *ConnManager) RemoveAll() {
+	for _, k := range cm.pool.Keys() {
+		cm.Remove(k)
+	}
+}